Communication and proximity authorization systems

ABSTRACT

A proximity service unit for providing at least one predetermined service for use with multiple types of wireless devices. The proximity service unit includes a multiple channel wireless transceiver, a proximity unit validation assembly, and a legacy activation unit. The multiple channel wireless transceiver receives at least two signal types, such as infrared region signals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHz region signals. The multiple channel wireless transceiver receives a request authorization code from each of a plurality of respective wireless devices such that the plurality of wireless devices communicate simultaneously with the multiple channel wireless transceiver without air time. The proximity unit validation assembly communicates with the multiple channel wireless transceiver and receives and validates the plurality of request authorization codes received by the multiple channel wireless transceiver. The legacy activation unit receives a service authorization code and provides at least one predetermined service for each wireless device providing the request authorization code resulting in a service authorization code.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority to the provisional patent applicationidentified by U.S. Ser. No. 60/152,184, entitled “New Communication andProximity Authorization Systems”, which was filed on Sep. 2, 1999.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

SUMMARY OF THE INVENTION

The present invention relates to a pico pay phone system (PPS). Thepresent invention will allow multiple wireless devices to access asingle pay phone or other public kiosk communication unit designed todetect and recognize multiple wireless service providers' signals andprotocols at the same time. In particular, the invention is directed toservices provided by either public communication companies, such as SWBTor GTE, or kiosk companies, such as Air Touch, located in airports andlarge hotels along with private company services, such as offered byDirectTV and AT&T Cable (formally TCI). The preferred embodiment has aminimum of four types of wireless signaling detection capabilities suchas Infrared, 900 Mhz, 1.8 Ghz and one other FCC-approved signalingdetection capability plus the frequency of the original wirelessspecialty device if the proximity system already has such a design (forexample in the case of Digital Cable Systems there is a remote controlunit). For each of the distinct communication capabilities, the PPS hasan automatic detection system to recognize both the type of service andservice provider protocols and wireless device features. The system haswireless base station multiple channel capability on the input side foreach of the types of signals (Infrared, 900 Mhz, 1.8 Ghz, etc.) andmultiple channel time division multiplex (TDM) capability on the outputside using a standard high speed switch connected to, for example, a T1line (or several T1 lines) such as used in most office buildings ornetwork service provider systems today. Thus, a single unit can easilyservice several hundred phones simultaneously for, for example, $0.35cents each. This will potentially bring in several thousand dollars aday per phone or kiosk instead of less than a hundred dollars a day forexisting pay phones and kiosks. In addition, the preferred embodimenthas a biometrics recognition system for ID and credit transactionservices. The PPS can also issue access numbers to people so they do nothave to stand in line and wait to access the service when they have topay real money because they are not recognized by the creditauthorization system of the Invention.

The Proximity Authorization Transaction System (PATAS) invention isfirst directed to a general multiple signal frequency transceivertransaction unit (also referred to herein as a multiple channel wirelesstransceiver) designed to operate with most of the wireless devicefrequency signal types approved by the FCC for the digital cell phone,pager, and Infrared devices in use today and that will be in use duringthe next 10 years that can be used or adapted to most any proximitysystem. Then descriptions of adapting PATAS for each of the morespecific proximity systems (also referred to herein as proximity serviceunits) are provided, along with the inclusion of the cross featuresshared by some of the systems, such as the incorporation of the PPSinvention into an ATM unit along with other ATM features.

The specific improved proximity systems include, but are not limited to,proximity systems such as (1) vehicle toll systems (2) subway and bussystems, (3) vehicle systems, (4) ATM systems, (5) buildings and hotelsystems, (6) home access systems (7) garage door systems, (8) parkinglot systems (9) parking meter systems, (10) store checkout systems, (11)gas dispensing systems (12) mobile transportation credit systems and(13) vending machine systems, and (14) large public or private facilitysystems, such as entertainment facilities, that network any combinationof the proximity systems (1) through (13) together to have an integratedfacility management system. For example, the entertainment facilitycould be a stadium having ATM systems, store checkout systems, parkinglot systems, parking meters systems, and vending machine systems whichare networked and integrated together such that a consumer need only usea wireless device as discussed herein to activate and thereby receiveeach of these services or goods.

The present invention also relates to a master proximity signaling unitMPSU (also referred to herein as a proximity authorization unit). TheMPSU is an alternative to having to pay for high power wirelesscommunication devices and/or services, such as a cell phone or pager orhand held computer with wireless communication features just to get theconvenience of a single device handling most of the proximity servicespeople use in their daily lives. The MPSU incorporates multiple lowpower type signaling capability into a low cost device specificallydesigned to allow all the multiple proximity services authorizationdevices to be incorporated into a single unit. The single unit candeliver the information to the proximity service provider machine (alsoreferred to herein as a proximity service unit) in a much simpler andmore convenient manner than done with existing devices and at less cost.In addition the MPSU can be used to communicate over local pico payphonenetworks as described in the application (Pico Phone). Thus theInvention described herein allows the consumer to have a veryinexpensive proximity authorization unit to replace the 10 to 20 devicesand cards now required and that also can serve as an inexpensivecommunication device without the wireless service provider costsattached. In essence the invention can replace all the cards, keys,signaling devices, and communication devices with a single unit that islightweight and easy to carry.

DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 is a block diagram showing the basic elements of the PicoPaySystem (PPS).

FIG. 2 is a block diagram showing the elements for controllingsimultaneous multiple wireless inputs and the multiple land lineconnections.

FIG. 3 is a block diagram showing the multiple signal detection elementsand legacy wireless base station units.

FIG. 4 is a block diagram showing the computer interface programs andlegacy unit interface elements.

FIG. 5 is a block diagram showing the biometric adapter interfaceelements.

FIG. 6 is a block diagram showing a wireless device preferredinput/output communication capability elements.

FIG. 7 is a block diagram showing other proximity systems that can bemade to operate with wireless or an advanced wireless authorization unitof this invention.

FIG. 8 is a block diagram showing a basic interface between the AdvancedWireless Authorization Unit (AWAU) and the Legacy AuthorizationTransaction Unit (LATU).

FIG. 9 is a block diagram showing the elements of a local Toll/Subwaymultiple signal detection and transaction unit.

FIG. 10 is a block diagram showing the elements of a local ATM multiplesignal detection and transaction unit.

FIG. 11 is a block diagram showing the elements of a local parking andmeter system multiple signal detection and transaction unit.

FIG. 12 is a block diagram showing the elements of a local garage,house, building and hotel multiple signal detection and transactionunit.

FIG. 13 is a block diagram showing the elements of a local gasdispensing system multiple signal detection and transaction unit.

FIG. 14 is a block diagram showing the elements of a local storecheckout system multiple signal detection and transaction unit.

FIG. 15 is a block diagram showing the elements of a local vehiclesystem multiple signal detection and transaction unit.

FIG. 16 is a block diagram showing the elements of a local mobiletransportation credit system multiple signal detection and transactionunit.

FIG. 17 is a block diagram showing the elements of a local vendingmachine multiple signal detection and transaction unit.

FIG. 18 is a table that summarizes the special features and functions ofthe Pico Pay System.

FIG. 19 is a table that summarizes the special features and functions ofthe general PATAS.

FIG. 20a is a table that summarizes the special features and functionsof the vehicle phone system.

FIG. 20b is a table that summarizes the special features and functionsof the subway/bus system.

FIG. 21 is a table that summarizes the special features and functions ofthe ATM System.

FIG. 22a is a table that summarizes the special features and functionsof the parking system.

FIG. 22b is a table that summarizes the special features and functionsof the parking meter system.

FIG. 23a is a table that summarizes the special features and functionsof the garage access and control system.

FIG. 23b is a table that summarizes the special features and functionsof the building and hotel system.

FIG. 23c is a table that summarizes the special features and functionsof the house access and control system.

FIG. 24 is a table that summarizes the special features and functions ofthe gas dispensing system.

FIG. 25 is a table that summarizes the special features and functions ofthe store checkout system.

FIG. 26 is a table that summarizes the special features and functions ofthe vehicle system.

FIG. 27 is a table that summarizes the special features and functions ofthe mobile transportation credit system.

FIG. 28 is a table that summarizes the special features and functions ofthe vending machine system.

FIG. 29 illustrates common proximity services now operated by separatecards or keys or special signaling devices plus the low power proximityphone service (i.e. public communication unit) feature of the Invention.

FIG. 30 is a block diagram showing a proximity authorization unitconstructed in accordance with the present invention and for use in thesystem depicted in FIG. 29.

FIG. 31 is a block diagram showing a more detailed view of atransmitter/receiver unit of the proximity authorization unit of FIG. 30and a more detailed view of a proximity service unit for use in thesystem depicted in FIG. 29.

FIG. 32 is a block diagram showing a control unit allowing the owner tooperate the various functions offered by the proximity authorizationunit.

FIG. 33 is a block diagram showing a physical adapter element,constructed in accordance with the present invention, that allows directreadout of code information not requiring wireless signaling to be used.

FIG. 34 shows a wireless signaling diagram for performing multilevelfunctions incorporating features of the present invention that may berequired in the proximity authorization process.

FIG. 35 shows the proximity authorization unit being utilized incombination with the public communication unit shown in FIG. 1 so as toform a pico pay system.

FIG. 36 shows a logic diagram for a biometric unit connecting theproximity authorization unit and the proximity service unit.

FIG. 37 shows a side elevational view of a proximity authorization unitincorporating features of the present invention with a computer unit, apower reception unit, a light control assembly and atransmifter/receiver unit shown in phantom.

FIG. 38 is a perspective view of a wrist of an individual, having theproximity authorization unit of FIG. 37 disposed thereon, extendedthrough a power antenna for providing a power signal to the powerreception unit of the proximity authorization unit.

DETAILED DESCRIPTION OF THE INVENTION Pico Pay System

The terms “no air time”, “do not require air time”, “no air time costs”,“no customer air time charges”, “without air time” or similar terms, asused herein mean that when a communication is made between a wirelessdevice and some type of service provider, such as a pay phone system,vending machine system, toll collection system, credit card system, ATM(automated teller machine) system, vehicle system, subway or toll boothsystem, checkout station system, parking meter system, mobile creditsystem, or the like, a commercial communication service provider, suchas Air Touch Communications, Sprint or the like, is not activated andthe user or customer is not charged air time. Thus, the terms “no airtime”, “do not require air time”, “no air time costs”, “no customer airtime charges”, “without air time” or similar terms refer to thecommunication being made between the wireless device and the serviceprovider without using commercial airwave communication channels.

The various aspects of a pico pay system (PPS) 6 invention can bedescribed with the aid of FIGS. 1 through 6. The general operation willbe described with the aid of FIG. 1 in which an airport and trade showscenario 10 b and building/hotel/apartment scenario 10 a are depicted.In both cases, public communication units 8 a and 8 b (functionallyshown as public communication unit 50) are shown that takes both theconventional single pay phone caller in the conventional fashion butalso connects multiple wireless devices 5 a, 5 b, 5 c, and 5 d(functionally shown as wireless devices 40) to their respectivelyrequested telephone numbers via lines 7 a, 7 b, 7 c, and 7 d(functionally shown as 45) and via lines 15 a, and 15 b (functionallyshown as 55) using the public communication system 60 that functionallyrepresents connections through the required public communicationswitches 20, last mile connections 25 and ultimately to the requestedparties 30 during the same time period. During the remainder of thedescription it will be understood that multiple wireless devices 40 areconnected to the public communication units 50 and the publiccommunication system 60 during the same time period. Also it will beunderstood that the wireless devices such as 5 a, 5 b, and 5 d can bemade by different suppliers and can be operating at least on one ofthree different signaling frequencies such as an Infrared region, 900Mhz region and 1.8 Ghz region and different protocols as designed by themanufacturer in their different models.

For example the public communication unit 50 can detect and service asimple wireless home phone (wireless device 40) and simultaneously asophisticated portable computer (wireless device 40) or PDA (wirelessdevice 40) that has an infrared modem with multimedia capability. Thepublic communication unit 50 also can detect the popular analog anddigital cell and pager phones made by Motorola, Nokia, Ericsson, NEC andothers. In addition the public communication unit 50 anticipatesadvanced wireless devices such as those described in co-pendingapplications (09/325,500), which is hereby expressly incorporated hereinby reference, and a MPSU (i.e., a proximity authorization unit describedhereinafter) that have fingerprint authorization features and capabilitybuilt in to interface with pay phones of the type described herein.

With the aid of FIG. 2 the elements for interfacing with these multipletype wireless devices 40 in a simultaneous manner are described wherethe wireless devices 40 and the public communication unit 50 are shownin greater detail.

Four wireless devices 40 are shown and designated by the referencenumerals 40 a, 40 b, 40 c and 40 d. The public communication unit 50 hasmultiple channels, and thus can have several wireless devices 40connected represented by 40 ap 40 aq, 40 cr and 40 ds where p, q, r, ands each can be any number up to several hundred. The wireless devices 40are connected to the public communication unit 50 via wireless links 45ap, 45 aq, 45 cr and 45 ds where as a conventional pay phone caller isphysically connected to public communication unit 50 via line 201 usingthe legacy pay phone equipment represented by 200. The conventionalcaller is connected to the requested party in the conventional mannervia line 202 connected to the public communication system 60 via line551.

The wireless device callers are connected to their respective requestedparties via a wireless device front end unit 210 described in moredetail in FIG. 3 via a multiple line bus 250 controlled by a computerunit 220 (such as a Motorola 68000 series communication computer chip)and a legacy line multiplex unit 230 such as a using Multiplex unit outof a MGX 8800 series unit made by Cisco Inc. that can map up to 10,000lines to a single port. The legacy line multiplex unit 230 connects eachof the wireless devices 5 a, 5 b, 5 c and 5 d to their respectiveparties over a single wide bandwidth line 55 using different TDMchannels represented by the group 55 ap for the wireless devicesconnected via 45 ap connections, 55 bq for the wireless devicesconnected via connections 45 bq, etc. Thus up to several hundredwireless callers can each use the same pay phone/Kiosk (publiccommunication unit 50) at the same time as a single conventional calleruses the phone in a physical manner. In addition, the publiccommunication unit 50 can have a biometric unit 240 controlled by thePPS computer unit 220 in which an available legacy fingerprint unitinstalled in the biometric unit 240 (such as a Veriprint 2100 model fromBiometric Inc.) is used for additional authorization means whenrequested by the service provider before supplying the requested servicedata such as bank records or money transfers. The heart of the computerunit 220 can be any of a number of DSP Motorola computers like a MC68230easily programmable by those skilled in the art or in the case of aKiosk unit a low cost network dual purpose computer such as a Dell 1300series using a Linux operating system can be used to control the PPSelements as well as other customer service features that might beprovided by the Kiosk unit. The computer unit 220 has all of the othernormal computer elements (not shown) required to operate such as RAM andpermanent memory elements.

The functions to be programmed are described in connection with FIGS. 2,3 and 4 and except for the various payment methods described inconnection with FIG. 4. The computer unit 220 programs are primarilyinterface programs to the communication operating systems available withthe legacy equipment. The computer unit 220 interfaces via line 208 withthe legacy pay phone or Kiosk existing physical equipment and functions200 via a PPS interface unit 207 (and described in more detail inconnection with FIG. 4).

The legacy pay phone equipment 200 has equipment such as the keyboardinput unit, coin payment unit, credit card reader equipment, andaudio/video customer interface units available in most publiccommunication payment units in use today and is connected to the PPSinterface unit 207 via line 205 to ensure that all of the added PPSequipment and control circuits have the proper electrical, mechanicaland timing interface matches with the existing legacy pay phoneequipment 200. In the case of a completely new unit that incorporatesthe PPS features the manufacturer can integrate all of the featuresdescribed herein with the legacy features of single connect physicalconnect payphones and Kiosks.

The computer unit 220 controls the timing and connection administrationvia line 215 connected to the wireless device front end unit 210described in connection with FIG. 3 and the legacy line multiplex unit230 via line 225 described earlier.

The communication heart of the PPS is the wireless device front end unit210 of FIG. 2 that is shown in more detail in FIG. 3. The wirelessdevice front end unit 210 is the basis for the independent claimsinvolving a multiple signal type transaction authorization unit (alsoreferred to herein as a multiple channel wireless transceiver).

In general, the wireless device front end unit 210 includes a multiplechannel wireless transceiver 212 capable of receiving at least twosignal types. The multiple channel wireless transceiver 212 receives arequest authorization code from each of a plurality of the wirelessdevices 40 such that the plurality of wireless devices 40 communicatesimultaneously with the multiple channel wireless transceiver 212without air time. Each wireless device 40 is capable of communicatingthe request authorization code when the wireless device 40 is within apredetermined proximity distance from the multiple channel wirelesstransceiver 212 and each request authorization code uniquely identifiesthe wireless device 40 from which the request authorization code isreceived.

In FIG. 3 the elements of the preferred embodiment of the wirelessdevice front end unit 210 (which may or may not be located in the samehousing as the other PPS elements) are shown where for example thewireless devices 40 ap use Infrared signaling and are connected toInfrared transceiver units 310 ap via lines 45 ap. The infraredtransceiver units 310 ap are connected to a multiple channel Infraredantenna capable of communicating with multiple wireless devices 40 ap upto at least a predetermined proximity distance such as a hundred feet.The infrared transceiver units 310 ap can be obtained from TexasInstruments, for example.

The infrared transceivers 310 ap (these might be separate units or asingle multiplexed unit) are connected to a legacy Infrared Base stationunit 320 a via line 315 ap that can handle several hundred channelssimultaneously. Each authorized channel 250 ap is connected to themultiple line Bus 250 when an authorization signal is provided to thelegacy infrared base station unit 320 a from the computer unit 220 vialine 215.

The connection authorization is made either by obtaining authorizationfrom a credit card or entering a request authorization code provided byphysical pay numbering described in more detail in connection with FIG.4. The request authorization code described above is for the access tothe public communication system 60 and does not authorize long distanceor other services wherein payment fees depend on the service provided.

For example when a wireless (or physical caller) dials a 1-800 numberauthorization would most likely be automatically given as soon as the1-800 was decoded by the legacy infrared base station unit 320 a andsent to the computer unit 220 via line 215 for processing as iscurrently the case with most public pay phone systems.

The other type of wireless devices 40 aq, 40 cr and 40 ds are describedto operate in a manner similar to that just described. The 900 Mhzdevices connection procedure are described by repeating the abovedescription and replacing elements 45 ap, 310 ap 315 ap, 320 a, 255 apabove with 45 bq, 310bq, 315 bq, 320 b and 255 bq respectively alongwith replacing the word “Infrared” with “900 Mhz”. The 1.8 Ghz devicegroup and other frequency wireless device group are similarly describedby substituting the elements 45 cr, 310 cr, 15 cr, 20 c and 255 cr for1.8 Ghz devices and 45 ds, 310 ds, 315 ds, 315 d, and 255 ds for otherwireless frequency groups approved by the FCC. Base station capabilityfor the 900 Mhz and 1.8 Ghz are readily available from suppliers such asthe GSN dual mode model 900/1800 from Nokia.

In summary, the heart of the PPS communication operation is the abilityto handle many types of wireless devices 5 a, 5 b, 5 c and 5 d, (or 40a, 40 b, 40 c and 40 d) both in terms of device signaling frequenciesand in terms of device protocols. The device protocol capability isdiscussed in more detail in connection with FIG. 6.

As discussed in connection with the prior art there has been very littledone to service multiple wireless devices even in the private marketbecause there is very little incentive for a wireless LAN (WLAN) vendorto have multiple capability within the same customer complex. It is mucheasier to tell the customer to use the same type of WLAN than trying toanticipate the different types of wireless devices 5 a, 5 b, 5 c and 5 da customer might purchase. Thus the advantage of designing a multiplewireless signal type interface (WLAN) unit for the public market is thatthe consumer has already demonstrated the willingness to pay forwireless interconnect convenience.

The public communication unit 50 is also provided with a proximity unitvalidation assembly 214 communicating with the multiple channel wirelesstransceiver 212. The proximity unit validation assembly 214 receives andvalidates the plurality of request authorization codes received by themultiple channel wireless transceiver 212 and outputs a serviceauthorization code in response to each of the request authorizationcodes upon validating the respective request authorization code.

To provide for both coin and credit transactions special types of accessnumbering methods must be utilized so several hundred customers do nothave to stand in line waiting for access to a single unit. One suchsystem can be described with the aid of FIG. 4. The PPS interface unit207 is provided with a customer authorization memory unit 410 that keepstrack of what wireless customer is assigned what active number. Theactive numbers range from 0001 to 9999 for example so that up to 10,000wireless devices 5 a, 5 b, 5 c and 5 d can be serviced simultaneously ifrequired for example in a large building such as a hotel during a largetrade show such as COMDEX. The purpose of keeping track of the wirelesscustomers is two fold. One reason is to control the legacy linemultiplex unit 230 connecting the Public communication system party tothe respective wireless device 5 a, 5 b, 5 c and 5 d. The second reasonis that if the wireless device owner pays by coin then a requestauthorization code is given to the wireless device owner (say number0026) so that the wireless device owner can enter the requestauthorization code at his convenience as long as the requestauthorization code is entered before some predetermined time later (say15 minutes) and the owners wireless device 5 a, 5 b, 5 c and 5 d will beconnected to an outside line.

This is similar to taking a number when entering a service office sothat you do not have to stand in line while waiting for the service.Only this is better because as soon as the wireless device owner isready for the service after getting the request authorization code, theycan have the service. The request authorization codes are assigned bythe computer unit 220 either after a signal via line 215 that isgenerated each time a request by one of the wireless transceiver units310, such as the infrared transceiver units 310 ap signals it needs anew number because a new customer device 40 is trying to get service.

The computer unit 220 then generates a number not currently in use andstarts a timer that will run a predetermined time unless turned offbecause time has expired or a public communication connection is madevia line 55.

If the timer expires before a connection is made the customer number isreleased in the available customer number pool and the wireless device 5a, 5 b, 5 c and 5 d must be reconnected by the same process. In caseswhere the wireless device customer 40 wants to pay by coin, voice(and/or display) instructions are given to the customer via line 215 tothe wireless device front end unit 210 and to the wireless device 40 via45 that are derived from a legacy communication unit 440 that isactivated by an interface controller 405 via line 445 once the computerunit 220 signals that the wireless customer wants to pay by coin.

This option is always available to the wireless device owner and isgiven to him each time he tries to makes a connection. Once the customernotifies they want to pay by coin the legacy pay phone equipment 200 istold what money to expect by the interface controller 405 via line 435to a legacy coin payment interface unit 430. The legacy coin paymentinterface unit 430 sends a signal to the legacy pay phone equipment 200via line 205 and the legacy pay phone equipment 200 then notifies thelegacy coin payment interface unit 430 via line 205 that a valid paymenthas been made. Then the service authorization code is sent to theinterface controller 405 via line 435 which in turn notifies thecomputer unit 220 via line 208 that a connection is authorized by coinpayment.

In anticipation that credit card and other sensitive monetary e-commercetransactions will require Biometric identification in the future thebiometric unit 240 is incorporated into the PPS housing and the elementsare shown in greater detail in FIG. 5. The biometric unit 240 has alegacy fingerprint detector 506 and an Iris detection element 504 (suchas incorporated in the model 2100 from Biometerics Inc. and a Quickcamvideo element) connected to a biometrics adapter unit 510 via lines 502and 505 whose function is to convert the legacy detector signals intothe electrical and format for the interface controller 405 via the printcode converter unit 520. The converted detector signals are transmittedto a buffer unit 530 via line 525. The buffer unit 530 outputs thedetector signals to the computer unit 220 via line 245. It might benoted that the print code converter unit 520 and the buffer unit 530might well be incorporated into the computer unit 220 but are shown hereas separate for the sake of clarity. Any instructions required to begiven the customer regarding when and how to use the legacy finger printdetector 506 or iris detection element 504 are stored in the computerunit 220 memory unit and delivered to the customer in a manner similarto that described in connection with the payment methods associated withFIG. 4. With the functions discussed for both FIG. 4 and FIG. 5, thecustomer will have to have physical contact or very close proximity(less than two feet) with the PPS unit to perform the coin payment andfingerprint or video identification functions respectively.

However, the finger print or video authorization functions may beperformed using the customers wireless device 40 as discussed inconnection with FIG. 6 along with other services requested by acustomer. In future wireless devices such as those described inCo-pending applications 09/325,500 and the Master PASS system afingerprint and or video unit is housed on or with the wireless device40 such as the FPU element 625 shown in FIG. 6. The rest of the elementsshown in FIG. 6 represent those currently available in most mobilecomputers with wireless capability such as the Palm Pilot VII wirelessnote book computer or Nokia 9000 series digital phones. Elements 650 and660 represent the audio and video (display) functions currentlyavailable and element 680 represents the menu select able controlfunctions along with special function elements 630 and 640. The menuselect able control functions for example might be a macro forrequesting e-mail once the customer is connected to their e-mail serviceprovider. Another control function for example maybe controlled by oneof the special function elements 630 and control a customer bank balancerequest after the customer is connected to their bank. The keyboardelements 610 are shown and are available on every wireless devicecontemplated to be used with the PPS along with element 650 or 660 orboth 650 and 660. That is, every wireless device 40 that can operatewith the PPS must have at least a keyboard capability and one form ofaudio or visual customer communication capability.

The special features and functions of the Pico Pay System are summarizedin the table of FIG. 18 that lists both the common and the specialunique features of the system from those associated with the otherProximity systems

DESCRIPTION OF THE PROXIMITY AUTHORIZATION TRANSACTION SYSTEM INVENTION

In addition to the PPS 6 just described, a PATAS system 700 constructedin accordance with the present invention is shown. In general, otherproximity systems that can be improved and made operative using anAdvanced Wireless Authorization Unit (AWAU) 719 portion of the PPSinvention with the appropriate interface modifications are shown inFIGS. 7 to 17 along with a general proximity system case identified as720 shown in FIGS. 7 and 8. The terms “proximity system” and “proximityservice unit” can be used interchangeably herein.

The specific proximity systems identified in FIG. 7 and in FIGS. 9through 17 are referred to as, 722 for the toll/subway systems, as 724for the ATM systems, as 726 for the gas station systems, as 728 for thestore checkout systems, as 730 for the vehicle systems, as a 732 for theparking systems (including parking meters), as 734 for the mobiletransportation credit systems such as used in taxis and buses, as 736for the house and building systems, as 738 for the vending machinesystems that also can be made to work with wireless devices operating ondifferent frequencies.

In FIG. 7 the basic operation of the proximity systems improved by theAWAU 719 can be described by starting with multiple wireless devices 710shown in FIG. 7 where five different type wireless devices 710 such as adigital cell phone, pager, computer, PDA or a specialty device areshown. For the sake of clarity let each of the wireless devices 710 notdesigned for the proximity system operate on a different frequency orhave a different protocol and or both. These wireless devices 710 thatwill activate existing Proximity systems will be denoted by 710 a, 710b, 710 c and 710 n for purposes of clarity. A proximity device 710L isalso shown in FIG. 7. The proximity device 710L is already designed tooperate with proximity systems 720, 722, 724, 726, 728, 730, 732, 734,736 and 738 (it may or may not be wireless). For example, the proximitydevice 710L is a wireless device for a legacy garage door system and formost Toll Tag systems for yet another example. However there are manyproximity systems 720 that do not have wireless devices that operatethem but only use cards, keys, biometrics, or coins in some combinationas was the case of the PPS proximity systems described in connectionwith FIGS. 1-6 before a system similar to the AWAU 719 was incorporated.

However for the sake of clarity, all legacy (where legacy is defined tomean “not designed to operate with at least one of the wireless devices710 a, 710 b, 710 c, or 710 n”) proximity systems will have a legacyauthorization transaction unit 830 along with an original device 710L ofsome nature that operates the original system. The 710L device isgenerally described along with the additional 710 wireless deviceelements 710 a, 710 b, 710 c and 710 n that are allowed to operate themodified proximity system after the AWAU 719 elements that are operatedby 710 a, 710 b, 710 c, 710 n via 717 are connected to the generalproximity system 720 via 716, and described in more detail with the aidof FIG. 8.

The purpose of the current invention is to extend the customer base forthese existing proximity systems 720 that only operate with the 710Ldevice to the customers operating the wireless devices 710 a through n.The character n is chosen to make it clear that the general proximitysystem 720 having the AWAU 719 may be designed to accommodate up to ndifferent device signal types where n will depend on how many differentsignal frequencies devices are made to operate in the future by thevarious wireless device manufacturers such as, Motorola, Nokia, NEC,Ercisson, Overhead Door, 3Com, Automobile manufacturers, securitycompanies and others. The number n, also heavily depends on the numberof wireless device frequencies approved by the FCC for use in theproximity service business.

For the sake of clarity it will be assumed during the remainder of thedescription that the wireless device 710 a operates in the infraredfrequency region approved by the FCC for wireless device operation, thewireless device 710 b will operate in the 900 Mhz region approved by theFCC for wireless device operation, the wireless device 710 c willoperate in the 1.8 Ghz region approved by the FCC for wireless deviceoperation and the wireless device 710 n will represent those that aremade to operate in any of the other regions approved by the FCC forwireless device operation. Also the operation of the legacy 710Ldevice(s) in connection with the general proximity system 720 (thatrepresents the proximity system before the AWAU is appended) for each ofthe specific proximity systems 722, 724, 726, 728, 730, 732, 736 and 738is omitted from the discussion of FIGS. 9 through 17 since in all casesthese are existing legacy systems and the proximity device 710L andgeneral proximity systems 720 operations are well known to those skilledin the art.

When needed specialty considerations and/or the benefits afforded by theinvention are discussed in each particular proximity system describedwith the aid of FIGS. 9-17. However the legacy proximity device 710L andthe general proximity system 720 is discussed with the aid of FIGS. 7and 8 in the general case where any of the wireless devices 710 canoperate any type of general proximity system when 720 when the AWAU 719and the general proximity systems 720 are combined as described.

In the general proximity system 720 and the specific proximity systems(722, 724, 726, 728, 730, 732, 734, 736 and 738) the signaling betweenthe wireless devices 710 and the AWAU proximity system transaction unitsis denoted by 717 as shown of FIG. 7 in order to simplify the drawingswith out sacrificing the clarity of the description.

The AWAU 719 is provided with a multiple channel wireless transceiver740 capable of receiving at least two signal types, i.e. differentfrequency signal types or protocols. The multiple channel wirelesstransceiver 740 receives a request authorization code from each of aplurality of the wireless devices 710 a-n such that the plurality ofwireless devices 710 a-n are capable of communicating simultaneouslywith the multiple channel wireless transceiver 740 without air time.Each wireless device 710 a -n is capable of communicating the requestauthorization code when the wireless device is within a predeterminedproximity distance from the multiple channel wireless transceiver 740and each request authorization code uniquely identifying the wirelessdevice 710 a-n from which the request authorization code is received.

For the general case any one of the wireless devices 710, say forexample the wireless device 710 a which operates using Infraredfrequency signals communicates to the AWAU 719 via line 717 that isconnected to the general proximity system 720 via a line 716 housedtherein and described in further detail in connection with FIG. 8.

The legacy proximity device 710L is shown connected to the generalproximity system 720 via a line 712 and a description of the operationfor this general case is described in FIG. 8 where 712 is connected to alegacy activation unit 820L which might be something as simple as a coinpayment box if the proximity device 710L for example is a coin. If theproximity device 710L is a credit card, then the legacy activation unit820L would be a credit card reader for example. In the case where thelegacy activation unit 820L, such as the credit card reader, needed tobe connected to a remote data base 750 for authorization, a request forauthorization along with the credit card information would be sent bythe legacy activation unit 820L to a legacy authorization transactionunit 830 via a line 825 where upon the legacy authorization transactionunit 830 would make the request to the remote database 750 via lines729L and 760 to the remote database 750.

In some cases, the legacy authorization transaction unit 830authorization unit might be required to communicate via the line 729Lwith the remote database 750 via line 760 where lines 729L and 760 mightbe connected together through any number of private and publiccommunication networks 745, including the Internet prior to making afinal connection to the remote database 750, for example. Once therequested proximity service or action authorization, i.e. a serviceauthorization code, is received by the legacy authorization transactionunit 830 the legacy activation unit 820L is notified and the service isdelivered to the customer. The above description of the legacy proximitydevice 710L made to operate the general proximity system 720 will not berepeated for all the special cases and the legacy activation unit 820Lin the general proximity system 720 is omitted from FIGS. 9 through 17since the essence of the invention is to allow activation using thelegacy activation unit 820L but allow the request for service, i.e. therequest authorization code, to be also made by customers through theAdvanced Wireless Authorization Unit or AWAU 719 for activating thegeneral proximity system 720. However, the equivalent of the legacyauthorization transaction unit 830 is shown in each of the FIGS. 9-17since the authorization might require remote communication the casesdepending on the owner of the general proximity system 720.

The general AWAU 719 that will work with the general proximity systems720 other than pay phones or communication Kiosks as described earlierin connection with FIGS. 1-6 is described in further detail with the aidof FIG. 8 but the in depth workings of the general proximity system 720are not repeated here for the sake of brevity with out sacrificingclarity of operation.

Referring now to FIG. 8, shown therein in more detail is the AWAU 719.The multiple channel wireless transceiver 740 of the AWAU is providedwith a plurality of wireless transceivers 810 an 1, 810 bn 2, 810 cn 3 ,and 810 nn 4. In FIG. 8, the possible wireless signals going to thegeneral proximity system 720 from any of the wireless devices 710 a, 710b, 710 c and 710 n are shown going to the AWAU 719 via the line 717 andare connected to operate distinct sets of the wireless transceivers 810an, 810 bn 2, 810 cn 3 , and 810 nn 4 where for example the wirelesstransceivers 810 for infrared devices are represented by 810 an 1. N1represents the different number of infrared transceivers in 810 an 1that are available to accommodate more than one infrared wireless device710.

The number n1 may be determined because the designer allows differenttransceivers 810 an 1 to have the ability to detect the same typeinfrared signal frequency and protocols but allows for more than oneuser to be connected at the same time or they may be because thetransceivers 810 an 1 are able to detect several different type signalfrequencies and/or protocols of infrared devices but not does not allowusers to be connected at the same time. The detection of a signal fromthe devices 710 b is done by 810 bn 2, devices 710 c is done by 810 cn 3and devices 710 n is detected by 810 nn 4 respectively. The numbers n1,n2, n3, and n4 associated with a, b, c, and n can be different for eachcase depending upon which type wireless transceiver is shown. That is,the number n1 of transceivers 810 an 1 does not have to be the same asn2 for 810 bn 2. Also, the AWAU 719 might only have two types ofwireless transceivers say 810 an 1 type and 810 bn 2, type. The numberof type signals a, b, c, or n and the number of transceiver channels n1,n2. etc. for each signal type will depend on the proximity systemdesigner and will increase the more customers the proximity system ownerwants to accommodate.

For example a parking garage, parking meter system, or retail storecredit system will tend to want as many type wireless transceivers 810and as many channels as possible since the one time cost is amortizedvery quickly as the number of users increase.

Once one of the wireless transceivers 810 an 1 not in operation detectsa signal from the wireless devices 710 a when a user gets within apredetermined distance and causes their wireless device 710 a signal,i.e. request authorization code, to exceed a predetermined transceiverthreshold, say normally less that 200 feet for example, a legacyinterface unit 820 a is notified via line 815 an 1.

In various embodiments of the present invention, a detector system fordetecting the distance from the wireless transceiver 810 an 1 to thewireless device 710 a is provided in the wireless transceiver 810 an 1,810 bn 2, 810 cn 3 and 810 nn 1 of the multiple channel wirelesstransceiver 740. For example, when the AWAU 710 is utilized with thetoll/subway systems 722, the multiple channel wireless transceiver 740is programmed to detect a first signal strength from the wireless device710 a and a second signal strength from the wireless device 710 a. Asignal is transmitted to the legacy interface unit 820 a and/or thelegacy authorization transaction unit 830 so as to validate theplurality of request authorization codes in response to the multiplechannel wireless transceiver 740 detecting the first signal strength. Asignal is transmitted to the legacy interface unit 820 a and/or thelegacy authorization transaction unit 830 in response to the multiplechannel wireless transceiver 740 detecting the second signal strength soas to cause the legacy interface unit 820 a and/or the legacyauthorization transaction unit 830 to output the service authorizationcodes in response to the multiple channel wireless transceiver 740detecting the second signal strength. The toll/subway system 722 thenprovides the predetermined toll service, such as activating the gate orred/green light, for example, to pass the wireless device owner throughthe toll/subway system 722.

In one preferred embodiment, the multiple channel wireless transceiver740 detects the first signal strength in response to the wirelessdevices 710 a being within a first proximity distance from the multiplechannel wireless transceiver. The multiple channel wireless transceiver740 detects the second signal strength in response to the wirelessdevices 710 a being within a second proximity distance from the multiplechannel wireless transceiver 740. The first proximity distance isgreater than the second proximity distance. For example, the firstproximity distance can be 500 feet and the second proximity distance canbe set close in say 20 feet. Thus, authorization can preferably beobtained before the wireless device owner is close to the gate orred/green light to speed up the passage of people through thetoll/subway system 722, for example.

The legacy interface unit 820 a is connected to the specific transceiver810 an 1 that made the detection of the signal from the specificwireless device 710 a. The legacy authorization transaction unit 830 inthe proximity system 720 is notified via line 716 and the legacyauthorization process described in connection with 710L is completed soas to receive a service authorization code upon validation of therequest authorization code. While this process is being completed thesignal connection is maintained between the wireless device 710 a andthe wireless transceiver 810 an 1 units by the legacy interface unit 820a during the remainder of the transaction process by assigning atemporary number that correlates the specific wireless transceiver 810an 1 with the wireless device 710 a using identifying parametersreceived from the specific wireless device 710 a detected. It should beunderstood that the legacy authorization transaction unit 803 can bereferred to herein as a “proximity unit validation assembly”.

Also two way communication capability is always assumed to beunavailable or in effect unless otherwise specified. In some cases, thewireless device 710 a is automatically activated when reaching apredetermined proximity distance from the AWAU 719 and in others cases,the wireless device 710 a is all ways activated by the customer when aservice is desired. Cases where automatic activation takes place are inmoving vehicles such as toll gates and parking lots for example. Mostother cases the services is manually requested by activation of thewireless device 710 to provide the request authorization code.Identifying parameters are used to develop a queue for delivering therequested service in the correct order and to the correct wirelessdevice 710 a. The identifying parameters as a minimum includes a uniquedevice ID, such as the manufacturers identification number (MIN) orservice provider identification number (SID) normally transmitted withcell phones or pagers and the time the wireless device 710 a isdetected. However other proximity information and user ID such asfingerprint or credit card # or a PIN number might be required orrequested as part of the authorization process.

The legacy interface units 820 a, 820 b, 820 c and 820 n of the AWAU 719handle all of these administrative items along with staying inconnection with 820L, via line 716, responsible for delivering theservice requested and collecting the payment information. If remotecommunication is required the legacy activation unit 820L will connectthe legacy interface unit 820 a communication channel line 716a to thelegacy authorization transaction unit 830 connected to the remotedatabase 750 via line 729 a and 760. Again, as in the case of the 710Ldevice description 729 a might be connected to 760 via manycommunication networks 745 including the Internet.

It should be noted that multiple channel capability might be required tohandle each wireless device 710 similar to that described in connectionwith the Pico Pay system 6 but double subscripts are omitted on the output side in FIGS. 9-17 since in most cases multiple simultaneousauthorization is not required like it was with the Pico Pay system 6.Also in many cases such as the house and building system 736, one linewould be used at a time even if remote communication was needed. Inthose cases the legacy interface units 820 a, 820 b, 820 c, 820 n of theAWAU 719 along with the legacy authorization transaction unit 830 andlines 729 a, 729 b, 729 c and 729 n would all be reduced to a singleauthorization unit interfacing with the multiple transceiver devices 810an 1, 810 bn 2, 810 cn 3 and 810 nn 4 where every transceiver device wasunique and only represented one type of wireless signal device 710.

Once authorization is approved by the legacy authorization transactionunit 830 the service authorization code is output to the legacyactivation unit 820L via the line 825 and the requested service, i.e.checkout services, toll services, garage door opening services and thelike, is provided to the device user by the legacy activation unit 820Land the specific 810 an 1 that was connected to the specific wirelessdevice 710 a is released by the legacy interface unit 820 a. The legacyinterface unit 820 a, for example, then waits to detect the nextwireless device 710 coming within the predetermined proximity distance.

The term “legacy activation unit”, as used herein, broadly refers to adevice for providing predetermined services, such as pay telephoneservices, checkout services, toll services, garage door opening servicesand the like.

Also the temporary number can be erased from memory unless the proximityservice provided requires that unique numbers be generated each time aspecific wireless device 710 is connected to a specific wirelesstransceiver 810 a. This would probably be a rare requirement sincenormally the user ID along with the time tag information is all that isrequired by a service provider billing system.

The above description for the general case, omitted a discussion of theBiometric systems and authorizations that might be required or thepossible advanced digital wireless service communication capability forthe 710 a, 710 b, 710 c or 710 n wireless devices as done in connectionwith the Pico Pay System 6. These features were discussed in connectionwith FIGS. 5 and 6 and are preferably utilized by the wireless device710 a, 710 b, 710 c or 710 n. Thus, the same discussion would apply inconnection with fully describing and repeating those features inconnection with FIG. 8 (the general case) and FIGS. 9-17 associated witheach of the specific proximity systems. For the sake of brevity, thesedescription are expressly incorporated herein by reference and will notrepeated since no new features are contemplated in connection with theclaims associated with FIGS. 8-17.

The specific cases for the more notable proximity systems are describedwith the aid of FIGS. 9-17 where the AWAU 719 is described to operatewith each specific type of proximity system so that after incorporatingthis invention, they will also operate with wireless devices 710operating on frequencies not originally designed for their service. Inthe specific cases shown in FIGS. 9-17, the legacy activation unit 820Lranges from units that only accept physical keys, cards or coins such asATM's, House and building locks, parking meters and gates, vendingmachines and retail store check out counters, to those that havespecialized wireless activation devices such as toll tags, entry gatesand garages. Some of the specific cases shown have both a card, key, orcoin activation means and a wireless means such as vehicles, securityaccess systems, and gas station systems.

However, prior to this invention, it is believed the systems 722, 724,726, 728, 730, 732, 734, 736 and 738 in FIGS. 9 through 17 have not beenable to operate with digital wireless devices 710 that operate ondifferent frequencies and have a communication capability other than toeffect the proximity system activation function described herein. Insummary the systems have not been capable of operating to operate witheither modified (see application #9/325,500 the content of which ishereby expressly incorporated herein by reference) or unmodified devicessuch as cell phones, pagers, notebook computers, or an all in onewireless activation and communication devices such as Master PASS.

The general features and functions of the general case PATAS system 700are shown in the table of FIG. 19 that lists both the common and thespecial unique features of the PATAS system 700 for use with the generalproximity system 720 from those associated with the Pico Pay system 6described in connection with FIGS. 1-6.

In FIG. 9 the toll/subway system 722 is shown where the AWAU 719 isincorporated into the toll/subway system 722.

For purposes of brevity, the legacy interface units 920 a, 920 b, 920 c,and 920 n are similar in construction and function to the legacyactivation elements 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of the legacy activation unit 820L has beenincorporated into respective legacy interface units 920 a, 920 b, 920 c,and 920 n and the activation portion of the legacy activation unit 820Lis omitted for the reasons discussed earlier (i.e. no changes in theservice activation elements of the toll/subway system 722 arecontemplated in this invention). The activation by devices 710 a through710 n via 717 to elements 910 an 1 through 910 nn 4 along with theirconnections to the legacy interface units 920 a, 920 b, 920 c, and 920 nand respectively via lines 915 an 1, through 915 nn 4 respectively isidentical in operation as 810 an 1 through 810 nn 4 and 815 an 1 through815 nn 4 in FIG. 8 discussed previously.

Most toll systems now have lanes that only pass vehicles with amountable electronic tags (e.g. TIRIS made by Texas Instruments series5000 reader systems) plus all systems have lanes that only use coins andsome have lanes that allow vehicles to pass using either type activationdevice. Unfortunately both of these activation devices (tags and coins)are usually different in every state and city and controlled by a localtransportation authority. Cross country trucks for example might have tohave ten devices if they wanted to use toll tags and travelers usingrent cars are simply out of luck.

It is estimated that all the toll tags lumped together in the USA marketnumber less than 10 million units for over a 100 million cars(approximately 10%). In any one market the number is less that 1% of thevehicles have tags because they are not portable to other cities,states, or countries. However, 40% of the vehicles that use toll systemsnow have a cell phone or pager and the number is expected to reach 75%within three years. Consequently a system such as described herein wouldmove the customer base in each area from less than 1% to 75% of thevehicles in three years with very little investment. The proximity andcorrect gate activation functions would have to be properly implemented.Although these can be handled in a number of ways by those skilled inthe art a preferred method which improves the existing methods is asfollows. A two activation signal strength system is incorporated intounits 910 an 1 through 910 nn 4 and 920 a through 920 n wherein thefirst signal strength level activates the authorization computer and thesecond activation level activates the gate or red/green light. Thecurrent toll tag systems mostly have very expensive systems becausemostly operate with special purpose transponders for the purpose of bothauthorization and activation and the detection distance is short lessthan 50 feet in most cases. This means that gates speeds have to be keptlow which requires more gates to be added to increase the vehicle countper unit of time. With the toll/subway system 722, authorizationdistance can be set out to 500 feet and red/green light distance setclose in say 20 feet. Consequently gate speeds can be doubled in orderto handle the increase in customers caused by allowing cell phone andpager customers to use the toll systems. Clearly, the old systems wouldeventually be phased out when it so easy to give a customer an accountby just knowing their pager or cell phone number. Note that this samemodification would be used in parking lots, airport gates, subway andbus systems with slight parameter modifications to tailor the activationdistances and the authorization distances to match the speed and signaltype of the 710 a through 710 n device to the proximity systemreliability requirements.

The special features and functions of the vehicle Toll 722 PATAS systemare shown in the table of FIG. 20a that lists both the common and thespecial unique features of the 722 PATAS from those associated with theother Proximity systems

The activation devices for the subway/toll system shown in FIG. 9 havesimilar devices but they are mostly cards and coins that people carryand they also suffer from the lack of portability between communities.However, portability is not the main problem with subways or buses asmuch as convenience. People keep having to get more coins or get theirsubway debit cards refilled and again visitors are always greatlyinconvenienced when in a new city especially in other countries. A cellphone or pager unique number capability and the built in billing systemassociated with them would allow local authorities to greatly reducetheir service costs by incorporating the system described herein. Also,the one billion customer base (counting cell phones and pagers) worldwide is not insignificant. Thus, in the case of toll systems, thecustomer base would increase dramatically with the adoption of thissystem.

In the case of public transportation systems the operating cost woulddecrease dramatically and allow people to use the public transportationsystems world wide with out having to learn a new system in each city.Also there would be a noticeable increase in riders just due to theconvenience for visitors and travelers. In those cases where thetransportation carrier had access to the public communication system aPPS unit could be offered riders so they could be using their cellphones while riding the subway or train and only paying the $0.35 centsand no air time costs. Special activation considerations would be addedto the activation portion of the 910 an 1 and 920 a units for example inaddition to the Customer ID authorization features already discussed inconnection with the general case of FIG. 8. The special features andfunctions of the toll/subway system 722 are shown in the table of FIG.20b that lists both the common and the special unique features of thetoll/subway system 722 from those associated with the other Proximitysystems

In FIG. 10, the ATM system 724 is shown in more detail. The ATM system724 includes the AWAU 719 elements and the legacy activation transactionunit 830 elements both incorporated into the ATM system 724. In otherwords, the ATM system 724 includes a plurality of wireless transceivers1010 an 1, 1010 bn 2, 1010 cn 3 and 1010 nn 4, a plurality of legacyinterface units 1020 a, 1020 b, 1020 c, and 1020 n, and a legacyauthorization transaction unit 1030.

The wireless transceivers 1010 an 1, 1010 bn 2, 1010 cn 3 and 1010 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1020 a, 1020 b, 1020c, and 1020 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1020 a, 1020 b, 1020 c, and 1020 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1030 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by devices 710 a through 710 n via 717 to the wirelesstransceivers 1010 an 1 through 1010 nn 4 along with their connections tothe legacy interface units 1020 a, 1020 b, 1020 c, and 1020 nrespectively via lines 1015 an 1, through 1015 nn 4 respectively isidentical in operation as 810 an 1 through 810 nn 4 and 815 an 1 through815 nn 4 in FIG. 8 discussed previously.

Most prior art ATM systems only allow operation using credit or debit orsmart cards plus all systems require PIN numbers to be inserted. Both ofthese activation devices (cards and PIN numbers) are usually differentbut normally the instruction are easy to follow. However because moneyis involved more Biometric information is the growing trend. Especiallyat ATM's that have had cameras installed for years to record the personrequesting and making the transaction. Also, it has always been aproblem for example a person waiting in line might see the PIN numberentered and steal the persons card. A cell phone or pager unique numbercapability and the built in billing system associated with them wouldallow ATM companies to immediately expand their customer base byallowing users to enter all of their credit card information from theircell phone or pager unit in a more convenient and safe manner. Thenumber of reduced manual re-entries alone because of normal data entrymistakes would unload the on line network system by 20% it has beenestimated. Also expanded service fee's could be generated if the PicoPay feature was added to each ATM unit.

For example if each ATM collected and additional $0.35 and hour (thiswould be 100 customers using the machines $0.35 cent phone service atonce and talking one hour or 10 customers using the ATM at once buttalking only 6 minutes) a machine would generate an additional $25,000 amonth. Also other services such as e-mail, stock quotes, etc could beprovided to customers for very nominal fees over their cell phonesdevices because no customer air time charges are involved, while thelegacy customers used their credit cards with the old physical manualmethod.

Again, special authorization and activation considerations would beadded to the activation portion of the 1010 an 1 and 1020 a units forexample in addition to the Customer ID authorization features alreadydiscussed. The proximity and service activation functions have to beproperly implemented. Although these can be handled in a number of waysby those skilled in the art a preferred method which improves theexisting methods is as follows. A two activation signal strength systemis incorporated into units 1010 an 1 through 1010 nn 4 and 1020 athrough 1020 n wherein a first signal strength and/or protocol activatesthe authorization computer for ATM services other than those thatrequire the menu screen of the ATM to be used. These might be for thePico Pay or e-mail and other communication services that do not requireclose physical proximity to the ATM system 724. The second activationlevel activates the ATM menu screen when the customer is very close sayless than one foot and allows the existing legacy ATM services to beprovided but the credit card and PIN numbers can be pulled from the cellphone, wireless computer device, or pager or put in on command from thewireless device depending on the selected mode of the menu.

The special features and functions of the ATM system 724 are shown inthe table of FIG. 21 that lists both the common and the special uniquefeatures of the ATM system 724 from those associated with the otherProximity systems

In FIG. 11, the parking system 732 is shown in more detail. The parkingsystem 732 can be provided on or adjacent to a parking lot (both publicand private such as an apartment complex) or a municipal parking meter.The parking system 732 includes the AWAU 719 elements and the legacyactivation transaction unit 830 elements both incorporated into the 736elements. In other words, the parking system 732 includes a plurality ofwireless transceivers 1110 an 1, 1110 bn 2, 1110 cn 3 and 1110 nn 4, aplurality of legacy interface units 1120 a, 1120 b, 1120 c, and 1120 n,and a legacy authorization transaction unit 1130.

The wireless transceivers 1110 an 1, 1110 bn 2, 1110 cn 3 and 1110 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1120 a, 1120 b, 1120c, and 1120 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1120 a, 1120 b, 1120 c, and 1120 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1130 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by devices 710 a through 710 n via 717 to elements 1110an 1 through 1110 nn 4 along with their connections to 1120 a, 1120 b,1120 c, and 1120 n respectively via lines 1115 an 1, through 1115 nn 4respectively is identical in operation as 810 an 1 through 810 nn 4 and815 an 1 through 815 nn 4 in FIG. 8 discussed previously.

Most parking systems that are accessed controlled only pass vehicles inwith a card, or ticket issued when magnetic loop senses the vehicle,electronic thumb unit such as used for cars plus. Unfortunately all ofthese activation devices (cards, tickets, and beepers) are usuallydifferent in every location, city, state and country. Also thecollection on exit still requires and attendant operating a money systemfor both cash and credit cards for parking lots and garages that are inbusiness to make money. Those systems designed for the convenience ofthe employee or resident can use an automated loop activated gate openerfor exiting. However this does not tell the management who is leaving sothat although one could determine when a person entered they would notknow when they left. In other words, the current controlled employeeparking systems are not functional as time card systems unless theemployee has to use their entry access device to control the exit gate.By way of example involving the parking systems that now require andattendant for 7 by 24 hour operation the monthly costs would be in therange of $200,000 per parking lot/garage that only had one 7 by 24 hourgate. If more gates were in operation, say during the day 3 gates werein operation then the collection costs for personnel would be nearer to$500,000 per month per garage.

Consequently, the incorporation of the house and building system 736would bring large savings if some of the parking lots where converted tocell phone or pager operation only. In addition the collection would bedone as a service by the cell phone or pager provider similar to 900service are collected by the phone companies for the private companies.The incorporation of the house and building system 736 into apartment oremployee systems would provide a much more secure and low cost methodfor providing the service to the administrators. The cost would begreatly lowered because the special relative unreliable devices such ascards or gate beepers could be eliminated in favor of entering thepersons cell phone number (or deleting the cell phone number when theemployee or resident left) or providing the resident a pager if they donot have a cell phone. The employee's or residents would welcome the gasstation system 726 in order to eliminate having to carry a specialdevice to use maybe four time a day.

The special features and functions of the parking system 732 for parkingaccess are shown in the table of FIG. 22a that lists both the common andthe special unique features of the parking system 732 for parking accessfrom those associated with the other Proximity systems In FIG. 11 theparking system 732 for parking meters is shown and is discussed hereseparately since they only use coins at present although some peoplehave advocated debit cards. The incorporation of the AWAU 719 unit wouldbe much less expensive than a coin collecting or card system and thecollection of revenues would be much less costly and safe than thecurrent meter systems. The cost of daily collections including thecounting and banking of coins is quite large and would be greatlyreduced with the present invention. The battery required for operationwould last several years between changes and the roving data basecollector (described in more detail later) would be notified each time ameter was out of order. Also, the parking system 732 as described wouldquickly spread to world acceptance and be a great convenience totravelers not familiar with the local coin systems. The wide acceptancewould greatly reduce the cost of the meters so that portable andtemporary wireless activated meters would become very practical for bothcities and wireless device service providers. Since there are no parkingmeter systems using a wireless activation device at present, thefollowing method of operation is described as follows in order to coverthe special claims associated with the parking system 732.

When the parking system 732 is incorporated into a parking meter, a twoway manual activation signal system is incorporated into wirelesstransceiver units 110 an 1 through 1110 nn 4 and the legacy activationunits 1120 a through 1120 n instead of automatic two way activation asbefore (the first ones would probably only work with Infrared andpossibly one other cell/pager frequency) wherein the unit 710 a wouldrequest the parking meter to be activated. The wireless transceiver 110an 1 and the legacy interface unit 1120 a would detect this request andask for the customer ID and Service Providers Identification Number(SPIN) and possibly other information via line 1115 an 1 and 717 back tothe wireless device 710 a to be used to authorize and eventually chargethe customers account (in the future the meter might ask for thecustomers Biometrics code for further identification purposes). Thelegacy interface unit 1120 a would already have a predetermined set ofSPIN codes for which the meter service was authorized.

The meter collection could be done from a roving vehicle using a specialauthorization code that authorized the collection of the meter user database from each meter it interrogated. An alternative method ofcollection is afforded with this system which would be pollinginterrogation but this would require up link high power capability(albeit for a very short period). This alternative method is recommendedfor small towns but the mobile interrogator is preferred in the largercities where meter maintenance duties are combined with collectionduties. This data base in turn could be combined with all other meterdata bases for the day and the various SPIN would be separated and themeter usage data for each customer would be sent to authorized device710 a Service Providers for collection.

Note that the collector would also be notified when at the meter if ameter had a low battery or was out of order and/or the daily collecteddata base could automatically send maintenance data to the maintenancedepartment for scheduled meter maintenance. The battery life wouldtypically be on the order of three to five years because of the lowpower requirements caused by only having to transmit a short distanceupon activation several times a day for very short periods. The citywould be paid the same day collection data was received by the serviceprovider, and the monthly meter usage for each unit 710 a would show upon the 710 a customers bill received from a cell phone, pager or otherService provider that administered the system.

Note, an Internet Service Provider (ISP) could administer the serviceworld wide for a number of customers and cities using e-commerce systemsthat most cities are connected to now). Another interesting feature ofthe design described above is that users would not have to worry abouttraffic tickets because they forgot to go put more money in the parkingmeter. The preferred embodiment design would allow the charges toaccumulate until the owner returned to the car and turned the meter off.This would be an option offered by the meter before the meter wasactivated. In other words the customer with device 710 a would have thechoice to put in a fixed time amount say down to 5 minutes or leave themeter running until they return. Also the convenience of always havingmoney for the meter to the customer would make all people sign up forsuch a service.

The special features and functions of the parking system 732 for usewith parking meters are shown in the table of FIG. 22b that lists boththe common and the special unique features of the parking system 732 foruse with parking meters from those associated with the other Proximitysystems.

In FIG. 12, the house and building system 736 for operating garagedoors, building doors, hotel doors or house doors and the like is shownin more detail. The house and building system 736 includes the AWAU 719elements and the legacy activation transaction unit 830 elements bothincorporated into the house and building system 736. In other words, thehouse and building system 736 includes a plurality of wirelesstransceivers 1210 an 1, 1210 bn 2, 1210 cn 3 and 1210 nn 4, a pluralityof legacy interface units 1220 a, 1220 b, 1220 c, and 1220 n, and alegacy authorization transaction unit 1230.

The wireless transceivers 1210 an 1, 1210 bn 2, 1210 cn 3 and 1210 nn 4are similar in construction and function to the wireless transceivers810 an, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1220 a, 1220 b, 1220c, and 1220 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1220 a, 1220 b, 1220 c, and 1220 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1230 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by devices 710 a through 710 n via 717 to the wirelesstransceivers 1210 an 1 through 1210 nn 4 along with their connections tothe legacy interface units 1220 a, 1220 b, 1220 c, and 1220 nrespectively via lines 1215 an 1, through 1215 nn 4 respectively isidentical in operation as 810 an 1 through 810 nn 4 and 815 an 1 through815 nn 4 in FIG. 8 discussed previously.

Garage door opener wireless activation systems have been around foryears and incorporation of the AWAU 719 to obtain the house and buildingsystem 736 only requires that the wireless transceivers 1210 an 1through 1210 nn 4 and the legacy interface units 1220 a through 1220 nelements for one way (or two way for the more expensive models)communication Transceivers be appended to the existing radio receiverunit so that the home owner does not have to carry a separate garagedoor opener. The added security features and ability to change dooropener PIN codes for each authorized person affords the same security asa good building access code systems. The Biometrics features built inthe to the AWPS wireless devices (application Ser. No. 09/325,500) canalso be required by 1220 a before the 820L activation unit is allowed tooperate. A two way system for example might be connected to the homesecurity system that might be connected to and Internet service providerthat keeps a list of all the authorized codes. The ISP only allowschanges to the 1220 a authorization system data base upon supplyingadditional personnel information Identifying a person authorized tochange the list of persons authorized to open the garage door.

The special features and functions of the house and building system 736are shown in the table of FIG. 23a that lists both the common and thespecial unique features of the house and building system 736 from thoseassociated with the other Proximity systems.

The prior art building and hotel door systems are currently accesscontrolled with a card, key or some sort of Biometric ID code in themore secure facilities. Unfortunately all of these activation devicesare usually different in every building and hotel and normallycontrolled by the building or hotel chain manager or owner. The oldmechanical lock and key are rapidly being replaced with the magneticprogrammable cards in both office and hotels. It is these new systems ofinterest since they all ready have activators 820L that can be activatedby electronic devices like 810L and a description of this portion of the1220 a is again unnecessary. These systems are designed for theconvenience of the employee or customer, and the building or hotelmanagement. However there are still large administrative problems inboth buildings and hotels because people forget, lose, or have theircards stolen. Also people are not required to put in PIN numbers becauseit would be too expensive to have key pads on every hotel door inaddition to a electronic card reader unit. In addition the ability tolock the door from the inside in order to prevent unauthorized entry oropening the door while setting on the sofa is not now possible. The lostcard and key problem would be greatly reduced and the room security anddoor opening convenience features would be available after incorporatingthe house and building system 736.

In accordance with the present invention, the predetermined door codeswould be generated either manually or by a hotel or building computercode generator and the information inserted into the persons wirelessdevice such as a persons 710 a cell phone or pager. The life span of theauthorization could be put in the wireless device, such as two daysexpiring at 12:00 PM on the second day. The ability to change the lockcodes stored in the legacy interface unit 1220 a for security purposesplus the ability to monitor which employees entered the room and whenthey entered would become very easy since the database in the lock couldbe changed and interrogated by using the building manager cell phone anda special macro menu designed to work with the legacy interface unit1220 a. The PIN number to activate the device could be inserted by thecustomer or employee, so that the door could not be opened until the PINnumber was entered that allowed the 710 a device to transmit the doorauthorization information inserted by the building manager or hotelcheck in clerk. Thus if the person 710 a phone or pager was stolen thedoor could not be opened because the door transmit mode could not beactivated. The management tools for employee job performance andcontract monitoring alone would pay for this system. In buildings thecustodial company would also have to have their own codes so theft andbreakage problems would be much easier to resolve. Security companypersonal would also have to be more accountable regarding their actualactivities versus their required contractual activities. In the case ofhotels and resorts the wireless device 710 a could also be used toactivate the vending machines, SPA room, in room video movies, and otheradditional services and have them automatically added to the bill. Theseadditional service could again only be activated after a guests enteredhis PIN number into the wireless device 710 a and the extra servicemachine validated that the guests was still checked into the hotel byoperating via the legacy authorization transaction unit 1230 unit vialine 729 a and 760 connected to the hotel database computer 750.

The special features and functions of the Building and Hotel 732 PATASsystem are shown in the table of FIG. 23b that lists both the common andthe special unique features of the 732 PATAS from those associated withthe other Proximity systems.

The prior art house door systems are currently access controlled with acard, key or some sort of Biometric ID code in the more secure homes andgated communities. Fortunately, or unfortunately, all of these 810Lactivation devices are usually different in every house or subdivisionand normally controlled by the builder or home owner association if notby the home owner. The old mechanical lock and key systems are slowlybeing replaced with the keypad associated with the home securitysystems. It is these new systems that are of interest since they allready have activators 820L that can be activated electronically like810L and a description of this portion of the legacy interface unit 1220a is again unnecessary. These systems are designed primarily withsecurity in mind and for the convenience of the home owner.

However there are still problems because people forget their HIN (HomeIdentification Number), lose, or have their keys or cards stolen. Alsopeople living in the newer and increasing popular gated communities haveto have two sets of access devices and or HIN's to administer. Changingthe locks or assigning temporary pass codes for guests is alsoprohibitively expensive for individual homes. In addition theconvenience of locking the door from the inside in order to preventunauthorized entry or opening the door while setting on the sofa to letin a guest is not now possible. The expense would be greatly reduced andthe room security and door opening convenience features would beavailable with the house and building system 736.

The predetermined door codes would be generated either manuallyfollowing a menu embedded in the wireless device 710, such as a cellphone or pager or they could be inserted by a security service computercode generator and the information inserted into the wireless device 710a, such as a persons regular house phone, cell phone, or pager or allthree using an automatic down load over the persons land line link andwireless service links.

The life span of the temporary authorizations could be put in thewireless device 710 a of the guest and set to expire on the day theguests departs. The ability to change the legacy interface unit 1220 alock codes for security purposes plus the ability to monitor whichpersons entered the room and when they entered would become very easysince the database in the lock could be changed and interrogated by thehome security service provider or read out using the home owners cell orhome phone with a special macro menu designed to work with the legacyinterface unit 1220 a lock unit.

The PIN number to activate the wireless device 710 a, housing theactivation codes, could be inserted by the home owner or guest, so thedoor could not be opened until the PIN number was entered that allowedthe wireless device 710 a device to transmit the door authorizationcodes. Thus if the persons wireless device 710 a, such as phone orpager, was stolen the door could not be opened because the door transmitmode could not be activated. Note that if a home used the house andbuilding system 736 described above along with the garage and officebuilding access systems described above, only one wireless device 710 athat in most case the owner keeps very good track of, could be used forgate, business, home, and garage door access by just choosing the nameon the home or cell phone display and pressing a special function key asshown in FIG. 6 or the normal device send key. Thus the benefits startto become evident of converting all the 10 to 20 proximity systemsencountered by individuals in their every day life so that the proximitysystems will operate with the few 1 to 3 inseparable communication andcomputer devices carried by almost every person at home and/or business.The practical aspect of the invention conversion approach is that, theexisting devices operating the proximity system will still operate thesystem after the conversion, so that original customer bases andequipment investments are preserved.

The special features and functions of the house and building system 736are shown in the table of FIG. 23c that lists both the common and thespecial unique features of the house and building 736 from thoseassociated with the other Proximity systems.

In FIG. 13, the gas station system 726 is shown in more detail. The gasstation system 726 includes the AWAU 719 elements and the legacyactivation transaction unit 830 elements both incorporated into the gasstation system 726. In other words, the gas station system 726 includesa plurality of wireless transceivers 1310 an 1, 13100 bn 2, 1310 cn 3and 1310 nn 4, a plurality of legacy interface units 1320 a, 1320 b,1320 c, and 1320 n, and a legacy authorization transaction unit 1330.

The wireless transceivers 1310 an 1, 1310 bn 2, 1310 cn 3 and 1310 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1320 a, 1320 b, 1320c, and 1320 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1320 a, 1320 b, 1320 c, and 1320 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1330 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by wireless devices 710 a through 710 n via 717 toelements 1310 an 1 through 1310 nn 4 along with their connections to1320 a, 1320 b, 1320 c, and 1320 n respectively via lines 1315 an 1,through 1315 nn 4 respectively is identical in operation as 810 an 1through 810 nn 4 and 815 an 1 through 815 nn 4 in FIG. 8 discussedpreviously.

Most prior art gas systems only dispense gas to vehicles after theperson has either paid inside, or paid outside at the pump. The insidepayment system will be covered in the description of the store checkoutsystem 728 described with reference to FIG. 14.

There are two methods to pay out side of which the most prevalent iscredit or debit cards. The electronic tags such as an 710L unit made byTexas Instruments to work with the 820L special series 5000 readersystems and those 710L and 820L units are being tried by Mobil company.However no large acceptance of such a 710L specialty device over thecredit card is evident. The trend in this market for specialty wirelessauthorization and activation devices is the same as for example the tolland parking gate access systems in that, specialty devices have beendeveloped with no multiple service or standard protocol capability. Thusa consumer must carry yet another device, and remember yet another setof procedures in order to use the wireless service. In most cases theconvenience benefit does not warrant the extra learning and devicecarrying effort the consumer must expend. The preferred 710 unit devicefor the gas station system 726 is a 710 a Infrared signaling type suchas the Nokia dual mode digital phone because it requires the customer tobe out of the car in close proximity to the 820L dispenser and have theAWPS patent application 09/325,5000 modification would force the highpowered portion of the phone to be turned off for possibly safetyliability reasons.

Note that the Biometric features described in connection with FIG. 5could be required for activation (not authorization). The purposes wouldbe similar to those for ATM's and secure building access systemsdescribed earlier which are to have better ability to find stolen creditnumbers and resolve credit charge disputes.

The special features and functions of the Gas station system 726 areshown in the table of FIG. 24 that lists both the common and the specialunique features of the gas station system 726 from those associated withthe other Proximity systems

In FIG. 14, the store checkout system 728 is shown in more detail. Thestore checkout system 728 includes the AWAU 719 elements and the legacyactivation transaction unit 830 elements both incorporated into thestore checkout system 728. In other words, the store checkout system 728includes a plurality of wireless transceivers 1410 an 1, 1410 bn 2, 1410cn 3 and 1410 nn 4, a plurality of legacy interface units 1420 a, 1420b, 1420 c, and 1420 n, and a legacy authorization transaction unit 1430.

The wireless transceivers 1410 an 1, 1410 bn 2, 1410 cn 3 and 1410 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1420 a, 1420 b, 1420c, and 1420 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1420 a, 1420 b, 1420 c, and 1420 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1430 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by wireless devices 710 a through 710 n via 717 to thewireless transceivers 1410 an 1 through 1410 nn 4 along with theirconnections to the legacy interface units 1420 a, 1420 b, 1420 c, and1420 n respectively via lines 1415 an 1, through 1415 nn 4 respectivelyis identical in operation as 810 an 1 through 810 nn 4 and 815 an 1through 815 nn 4 in FIG. 8 discussed previously.

Most 820L checkout stations only allow operation using cash, check,credit or debit cards and most have 830 interface units connected via729 and 760 to credit service operation centers 750. All of theseactivation devices are well known but different methods and proceduresare followed by different store owners and the procedures vary widely bycountry. However because money is involved more Identification andBiometric information is the growing trend such as the handwritingmachines now being employed by Best Buy company that records the personscredit card signature on every credit purchase. Also, it has always beena concern for example that a person card or other ID information is madeavailable to store clerks that might be enticed to sell such informationto unauthorized groups in the business of cashing bogus checks forexample. A cell phone or pager unique number capability and the built inbilling system associated with them would allow stores and opportunityto immediately expand their customer base by allowing users to enter allof their credit card information from their cell phone or pager unit ina more convenient and safe manner. In addition the store could inputtheir incentive cards now issued separately into the customers cellphone and automatic shopping points would be credited to their accountupon each purchase. A more advanced store system might have automaticdrawings that gives out prizes to one of each person in a store, sayevery 15 minutes by keeping track of those persons in the store having a710 unit. People not having the wireless 710 unit operating with thestore checkout system 728 would have to enter their store shoppingnumber manually when they entered the store in order to be in thecontest. Those entering the contest manually would be erased every timea winner was selected and would have to renter their number in order tobe eligible for the next drawing. Whereas, the wireless device 710 aowner would automatically be entered into the contest and automaticallybe removed when they left the store or was a winner which ever occurredfirst. Also expanded store service fee's could be generated if the PicoPay feature was added to each store checkout system 728. For example ifeach large store such as Wal-mart or Best Buy collected an additional$100 an hour (this would be for example 300 customers an hour using themachines at $0.35 cent per call) a store would generate an additional$72,000 a month profit per store in the chain. Also other services suchas e-mail, stock quotes, etc could be provided to customers for verynominal fee, over their cell phones devices while they were shoppingbecause no customer air time charges are involved, while the legacycustomers used their credit cards with the old physical manual method.

Again, special authorization and activation considerations would beadded to the activation portion of the wireless transceiver 1410 an 1and the legacy interface unit 1420 a. Although these can be implementedin a number of ways by those skilled in the art a preferred method whichimproves the existing checkout methods is as follows. A two activationsignal and signal strength recognition system is incorporated into thewireless transceivers 1410 an 1 through 1410 nn 4 and the legacyinterface units 1420 a through 1420 n wherein a first signal type suchas low power 900 Mhz to allow store wide Pico pay service protocolactivates the store service center including the special free storeservices that would be provided to the customer while in the store suchas the coupon discounts of the day, store shopping points allocation,and the contest drawings described earlier that might be effective. Thesecond preferred activation signal would be that required for actualcredit card checkout and the close proximity 710 a Infrared signal typeis preferred in order to control the correlation of the person with thecheckout counter.

The special features and functions of the store checkout system 728 areshown in the table of FIG. 25 that lists both the common and the specialunique features of the store checkout system 728 from those associatedwith the other Proximity systems.

In FIG. 15 the vehicle system 730 is shown and is discussed hereseparately since they only use keys, door entry pads or wireless entrydevices at present. The incorporation of the vehicle system 730 would bemuch less expensive than the special wireless 710L devices currentlybeing used. Also, the vehicle system 730 as described would quicklyspread to world acceptance and be a great convenience to travelersrenting cars so that several pairs of bulky keys would not be necessary.

In FIG. 15, the vehicle system 730 is shown in more detail. The vehiclesystem 730 includes the AWAU 719 elements and the legacy activationtransaction unit 830 elements both incorporated into the vehicle system730. In other words, the vehicle system 730 includes a plurality ofwireless transceivers 1510 an, 15100 bn 2, 1510 cn 3 and 1510 nn 4, aplurality of legacy interface units 1520 a, 1520 b, 1520 c, and 1520 n,and a legacy authorization transaction unit 1530.

The wireless transceivers 1510 an 1, 1510 bn 2, 1510 cn 3 and 1510 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1520 a, 1520 b, 1520c, and 1520 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1520 a, 1520 b, 1520 c, and 1520 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1530 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The requirement for actual physical keys would not be necessary in thefuture because the owner would know the car codes and the procedures totemporarily put them in other wireless cell phones in case they losttheir phone or wanted to let a friend borrow their car. Also thereliability issue is solved because the ignition system activation unitwould not turn off just because a cell phone became inoperative whilethe engine was running. In the preferred embodiment the cell phone isonly required to activate the vehicle engine each time the engine isstarted, once started the vehicle ignition 820L and cell phone 1520 acircuit is deactivated.

However, the owner can activate a deactivation mode recommended in thepreferred embodiment that allows the vehicle to be turned off from aremote wireless transmitter operated by the owners wireless pagerservice provider. Again this is a service that can be provided by anInternet Service Provider (such a system is described in a co-pendingapplication) world wide by subscribing to the service, for say, $1 amonth and providing the ISP special codes related to the MID of thevehicle to turn off the key activation unit.

The above anti theft system is much less expensive than the currentelectronic anti theft systems on the market. The wide acceptance wouldgreatly reduce the cost of both the vehicle entry system and theignition activation systems because of the volume. The rent carcompanies would enjoy such a system because they could put the keys inthe customers cell phone or pager and the keys would expire if thecustomer did not return the vehicle within a predetermined time period.Also the rent company, could deactivate the vehicle using the anti theftprocedure described above. Trucking companies and toll collectionauthorities could use the preferred embodiment features associated withvehicle location and gate activation that is different than thepreferred embodiment for the toll systems described in connection withFIG. 9 that used the owners mobile 710 a through 710 n wireless devicefor activation with the legacy interface units 920 a through 920 n forthe toll/subway systems 722.

This preferred embodiment allows the toll function to be activated byone of the vehicle mounted ignition units 1520 a through 1520 noperating with one of the legacy interface units 920 a through 920 n forthe toll/subway systems 722 rather than one of the wireless devices 710a through 710 n. Such a design would allow automatic vehicle monitoringworld wide using an ISP for just pennies per day for each vehicletracked. for example. The monitoring would not require GPS equipment butwould rely on frequent passage of vehicles by Pico Pay and Gas stationsystems that automatically activate and time stamp the vehicle VINtransmitted by a predetermined one of the 1510 a through 1510 n units.The inverse location system described above would cost very little tooperate since it is completely passive to the vehicle operator and allof the location detectors are already connected to the WWW system via1530 and 729 to 745 to 760 to 750. Also for a person to disable thelocation portion of the vehicle unit they would have to turn off theirengine every time it sensed a toll booth, Pico Pay unit, or Gas station,or a building with a Pico pay phone or a Store system FIG. 728 with aPico Pay system for example.

The special features and functions of the Vehicle system 730 are shownin the table of FIG. 26 that lists both the common and the specialunique features of the vehicle system 730 from those associated with theother Proximity systems.

In FIG. 16, the mobile transportation credit system 734 is shown in moredetail. The mobile transportation credit system 734 includes the AWAU719 elements and the legacy activation transaction unit 830 elementsboth incorporated into the mobile transportation credit system 734. Inother words, the mobile transportation credit system 734 includes aplurality of wireless transceivers 1610 an 1, 1610 bn 2, 1610 cn 3 and1610 nn 4, a plurality of legacy interface units 1620 a, 1620 b, 1620 c,and 1620 n, and a legacy authorization transaction unit 1630.

The wireless transceivers 1610 an 1, 16100 bn 2, 1610 cn 3 and 1610 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1620 a, 1620 b, 1620c, and 1620 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1620 a, 1620 b, 1620 c, and 1620 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1630 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by devices 710 a through 710 n via 717 to the wirelesstransceivers 1610 an 1 through 1610 nn 4 along with their connections to1620 a, 1620 b, 1620 c, and 1620 n respectively via lines 1615 an 1,through 1615 nn 4 respectively is identical in operation as 810 an 1through 810 nn 4 and 815 an 1 through 815 nn 4 in FIG. 8 discussedpreviously.

Most mobile transportation credit systems are currently installed intaxis and limousine services. Also most all of these services havewireless connections of their own to maintain communications with thedriver. All of the current authorization systems use this wireless linkto verify credit card information and get approval prior to releasingthe passenger. Also, they must handle the customers card or take thecard number verbally from the customer and enter it into the credit cardverification unit. Many Taxis and limousine services are installing theswipe card unit versions like stores use that interface with thewireless modem and automatically dial and get credit authorization without driver assistance after the card is swiped.

The improvement afforded by this invention is that (1) the customer canenter the credit information from his cell phone locally with out airtime (i.e. without activating a wireless communication service provider)(2) the credit information can be approved locally using the approvedSPIN data base as described in connection with the parking metercollection system and (3) the driver never has to stop or take his handsfrom the wheel or pay for wireless air time just to get paid. Thisauthorization and collection system like the parking meter system, thetoll system, the vehicle location system, the parking lot system, andthe subway system all have the features amenable to allowing automaticworld wide services when properly connected to a properly designed Website designed to automatically operate and provide customer servicesbased on a single set of customer ID and wireless device information andvehicle information. Such novel designed Web sites and ISP's aredescribed in co-pending application Ser. No. 60/161,883, submitted bythe inventor. They are not part of these inventions but these inventionsmake such Web sites feasible and are worth mentioning in thisapplication.

The basic operation for authorization and approval of the service is thesame as described in connection with the parking meter system shown inFIG. 11 and will not be repeated here. However the preferred collectionmethods are different and described as follows. After the customerscredit is approved for the service the charges are compiled by the taximeter and stored in the taxi data base. In the preferred embodiment areceipt is also printed out for the customer. The service charges areaccumulated and delivered to the base station

In one of several predetermined manners set by the company owner foreach driver or shift. One manner is to down load the charge data eachtime the driver communicates with the base station automatically. Thismethod would not require special scheduling software and not interferewith normal communications. The other would be that the data woulddownload automatically when the service charges exceed a predeterminedvalue selected by the owner. This download would be invisible to thedriver. A third method would be to poll the vehicles in operation onceand hour and send the collected revenue to the SPIN for collection. TheSPIN would pay the taxi company and either debit the customers creditcard account or add to a monthly service bill showing when, where andhow much was paid for taxi and other transportation services that month.

The special features and functions of the mobile transportation creditsystem 734 are shown in the table of FIG. 27 that lists both the commonand the special unique features of the mobile transportation creditsystem 734 from those associated with the other Proximity systems InFIG. 17, the vending machine system 738 is shown in more detail. Thevending machine system 738 includes the AWAU 719 elements and the legacyactivation transaction unit 830 elements both incorporated into thevending machine system 738. In other words, the vending machine system738 includes a plurality of wireless transceivers 1710 an 1, 1710 bn 2,1710 cn 3 and 1710 nn 4, a plurality of legacy interface units 1720 a,1720 b, 1720 c, and 1720 n, and a legacy authorization transaction unit1730.

The wireless transceivers 1710 an 1, 1710 bn 2, 1710 cn 3 and 1710 nn 4are similar in construction and function to the wireless transceivers810 an 1, 810 bn 2, 810 cn 3 and 810 nn 4, which were describedhereinbefore with reference to FIG. 8 except as discussed hereinafter.For purposes of brevity, the legacy interface units 1720 a, 1720 b, 1720c, and 1720 n are similar in construction and function to the legacyactivation units 820 a, 820 b, 820 c and 820 n, except that theauthorization portion of unit 820L has been incorporated into the legacyinterface units 1720 a, 1720 b, 1720 c, and 1720 n and the activationportion of 820L is omitted for the reasons discussed earlier (i.e. nochanges in the service activation elements are contemplated in thisinvention). The legacy activation transaction unit 1730 is similar inconstruction and function as the legacy activation transaction unit 830,except as discussed hereinafter.

The activation by devices 710 a through 710 n via 717 to the wirelesstransceivers 1710 an 1 through 1710 nn 4 along with their connections to1720 a, 1720 b, 1720 c, and 1720 n respectively via lines 1715 an 1,through 1715 nn 4 respectively is identical in operation as 810 an 1through 810 nn 4 and 815 an 1 through 815 nn 4 in FIG. 8 discussedpreviously.

Vending machine systems are currently installed in almost everyconceivable place and offer almost every conceivable product. Most allof these machine still require collections of coins and cash although inEurope a service company and a wireless company indicated they wheregoing to work together so that vending machine purchases could be madeafter getting approval from the credit card company over the wirelessphone, i.e. by activating the wireless communication service provider.Again, the airtime cost would probably cost more than the item beingpurchased from the service provider, such as the vending machine system.It should be said again, all the proximity systems and service describedin these inventions do not require air time from the customer and inmost cases from the service provider except where that is the normalmode of service provider communication such as with the MobilTransportation Credit system. There are also some vending machinesdesigned to use debit smart cards so the money is collected from preapproved smart card service providers. Except for the inconvenience ofhave to carry another card and go get it refilled when empty the debitcard system has many of the features of this invention.

The advantages of the vending machine system 738 incorporating featuresof the present invention are that (1) carrying of cash or credit cardsis eliminated (2) the vending machine system 738 become less vulnerableto theft and collections can be done each time the machine is serviced.Also similar to that described in connection with the parking meterswhere the collection from a wireless unit such as a cell phone and themachine money and inventory data is sent back to headquarters at thesame time.

The customer and machine collection data is separated and the money datais sent to the SPIN companies and the machine product requirements aresent to the stocking department and on to the route person handling eachmachine. Again this authorization and collection system, like theparking system 732 for the parking meter and the parking lot, thetoll/subway system 722, and the vehicle system 730 all have the featuresamenable to allowing a new type of world wide operating serviceproviders other than credit card and phone companies.

For example when the individual machine reporting links are connected(they all report to a separate but pre determined 1-800 number in eachcountry) to a properly designed Web site designed to automaticallyoperate and provide vending machine services based on a single set of 5customer ID and wireless device information and Vending machineinformation even the machine product reports could be sent directly tothe Vending machine companies along with the money data. Alternately thedata could be sorted and posted in a manner to allow the data to beretrieved by the machine service organizations or individualssubscribing to the service directly from the web site upon entering theproper authorization codes.

The special features and functions of the vending machine system 738 areshown in the table of FIG. 28 that lists both the common and the specialunique features of the mobile transportation credit system 738 fromthose associated with the other Proximity systems.

Detailed Description of the Invention Master Proximity AuthorizationSystem

Referring now to FIG. 29, shown therein and designated by the referencenumeral 2900 is a Master proximity authorization system constructed inaccordance with the present invention. The Master proximityauthorization system 2900 is provided with a proximity authorizationunit 2910, constructed in accordance with the present invention, foractivating a plurality of proximity service units 2920 incorporatingfeatures of the present invention. Some of the Proximity Service Units2920 are capable of receiving information via a first signal and some ofthe proximity service units 2920 are capable of receiving informationvia a second signal. Each of the proximity service units 2920 provide apredetermined service when activated in response to receiving a requestauthorization code.

The proximity authorization unit 2910 is provided with a portablehousing 2911, a computer unit 3000, and a transmitter/receiver unit3070. The computer unit 3000 is supported by the portable housing 2911and has at least one and preferably a plurality of request authorizationcodes stored therein. Each of the request authorization codes uniquelyidentify the proximity authorization unit 2910. The transmitter/receiverunit 3070 is supported by the port able housing 2911. The computer unit3000 retrieves the request authorization code and thetransmitter/receiver unit 3070 outputs the request authorization code onthe first signal for communication to the proximity service units 2920capable of receiving the first signal, and the transmitter/receiver unit3070 outputs the request authorization code via the second signal to theproximity service units 2920 capable of receiving the second signal.

The invention also relates to a unique method for activating proximityservice units 2920 wherein each proximity service unit 2920 provides apredetermined service in response to receiving a request authorizationcode. A plurality of the proximity authorization units 2910 areprovided. Each proximity authorization unit 2910 is capable of storingthe request authorization code and a preamble code, and outputting therequest authorization code and the preamble code. The preamble codeincludes a request for application program code. The preamble code isoutput by one of the proximity authorization units 2910. The preamblecode outputted by one of the proximity authorization units 2910 isreceived by at least one of the proximity service units 2920. Theproximity service unit 2920, which received the preamble code, outputsthe application program code stored by the proximity service unit 2920in response to receiving the preamble code. The application program codeis received by the proximity authorization unit 2910 outputting thepreamble code. The proximity authorization unit 2910 then outputs therequest authorization code using the application program code receivedby the proximity authorization unit 2910.

The proximity service unit 2920 can be any device which provides apredetermined service upon activation. For example, the proximityservice unit 2920 can be a house key system, a garage key system, asubway gate system, a taxi meter system, a parking lot gate system, aparking meter system, an ATM system, a vending machine system, a gaspump system, a store checkout system, a toll booth system, a vehiclecontrol system, or the public communication unit 50 described hereinbefore with reference to FIG. 1.

The proximity service unit 2920 communicates with the proximityauthorization unit 2910 via either a wireless link 2912 or i n somecases a physical link 2917. The physical link 2917 is described in moredetail in connection with FIG. 5. The wireless link 2912 is preferably alow power wireless link which does not typically communicate fartherthan about 300 feet.

Also each of the proximity service units 2920 may be linked via lines2929 to a network 2945 that is linked to a control or billing center2950 via link 2960 that may use the internet or switched networks andothers as shown in FIG. 1.

Referring to FIG. 31, the proximity service units 2920 are provided witha legacy proximity unit 3160, a physical adapter element 3170, awireless adapter element 3180, and a biometric adapter element 3190.

The legacy proximity unit 3160 includes legacy features for providingpredetermined services, such as card reader unit, a transaction unit, atransaction record & reporting unit, a customer receipt unit and thelike. If the proximity service unit 2920 is a vending machine fordispensing candy, the legacy proximity unit 3160 would include a housingfor holding the candy and a system for dispensing the candy.

The physical adapter element 3170 receives at least a portion of theproximity authorization unit 2910 is utilized for providing the physicallink 2917 between the proximity authorization unit 2910 and theproximity service unit 2920. For example, the physical adapter element3170 can be a docking station.

The wireless adapter element 3180 can be a wireless transmitter/receiverunit for providing communication between the legacy proximity unit 3160and the proximity authorization unit 2910 via the wireless link 2912.The wireless adapter element 3180 will be described in more detailbelow.

The biometric adapter element 3190 interfaces the proximity service unit2920 to a biometric unit for utilizing an individual's unique biometricfeatures as part of the authorization process prior to the proximityservice unit 2920 providing the predetermined service.

In accordance with the present invention, the proximity authorizationunit 2910 and the proximity service units 2920 can communicate via thewireless link 2912, the physical link 2917 and a combination of both thewireless link 2912 and the physical link 2917.

For example, when the proximity service unit 2920 is the vehicle controlsystem the proximity authorization unit 2910 can be used to replace boththe current legacy wireless door opening unit that comes with most carstoday and the physical ignition key by interfacing the proximityauthorization unit 2910 with the legacy vehicle control elements. Thevehicle doors can be controlled as currently done whereas the vehicleignition system can be made much more safe and theft proof if theproximity authorization unit 2910 is required to communicate with boththe physical link 2917 for example and the wireless link 2912 or yetanother wireless link before the vehicle ignition system will operate.

Further, in accordance with the present invention, the proximity serviceunit 2920 can be activated either automatically or manually by theproximity authorization unit 2910. For example, when the proximityservice unit 2920 is a toll booth system, the toll booth system can beactivated either automatically or manually by the proximityauthorization unit 2910 when the vehicle is within a predetermineddistance of the toll booth system. Further, dual signaling modes can beutilized. For example, the authorization process using the requestauthorization codes, such as owner codes delivered to the toll boothsystem from the proximity authorization unit 2910 can be activated forexample at a first proximity distance, and the gate or light signalshowing approval is done at a closer second proximity distance. This canbe accomplished in one preferred embodiment by the wireless. adapterelement 3180 determining the signal strength of the requestauthorization code transmitted to the wireless adapter element 3180 bythe proximity authorization unit 2910, for example.

As another example, the proximity service unit 2920 can also be the ATMsystem, or the vending machine system. The ATM system or the vendingmachine system can be activated either automatically or manually by theproximity authorization unit 2910 when the person is within apredetermined proximity distance of the ATM system or the vendingmachine system. The authorization process using the requestauthorization code transmitted to the ATM system or the vending machinesystem can be activated for example at one distance for services notrequiring the owner of the proximity authorization unit 2910 tophysically use the menu on the ATM system or the vending machine system.In accordance with the present invention, if the owner of the proximityauthorization unit 2910 needs to physically use the menu on the ATMsystem or the vending machine system, the menu operation can be enabledat a closer distance using the signal strength detected by the wirelessadapter element 3180, for example. In the case of the ATM system and thevending machine system, the request authorization code can betransmitted to the wireless adapter element 3180 to begin theauthorization process, and a physical connection between the proximityauthorization unit 2910 and the physical adapter element 3170 can beused to activate the menu services.

Further, in accordance with the present invention when the proximityservice unit 2920 is the gas pump system, the gas pump system can beactivated either automatically or manually by the proximityauthorization unit 2910 when the vehicle is within a predeterminedproximity distance of the gas pump system. In addition, in accordancewith the present invention, the authorization process using the requestauthorization codes transmitted to the proximity service unit 2920 canbe activated for example at one distance, and the gas pump system can beactivated to pump gas at a closer distance. This can be accomplished byincorporating a signal strength detector in the wireless adapter element3180.

If the proximity service unit 2920 is the store checkout system, thestore checkout system can be activated either automatically or manuallyby the proximity authorization unit 2910 when the proximityauthorization unit 2910 is within a predetermined proximity distance ofthe store checkout station. The authorization process using theauthorization request codes transmitted to the wireless adapter element3180 of the proximity service unit 2920 from the proximity authorizationunit 2910 can be activated for example at a first proximity distance.The proximity service unit 2920 can deliver special services to thecustomer via the audio or video elements of the proximity authorizationunit 2910 or send greetings to regular customers for example tellingthem of store specials. The store checkout system can approval thetransaction at a second proximity distance (which is closer than thefirst proximity distance) using either the signal strength detected bythe wireless adapter element 3180 or using the physical adapter element3170 to deliver the correct authorization information to the storecheckout system.

In all of the above descriptions the authorization information that canbe stored in the proximity authorization unit 2910 for delivery to theproximity service units 2920 can include credit card numbers plus PIN orspecial local authorization numbers such as a Service ProviderIdentification Number (SPIN) wherein the proximity service units 2920can locally approve the transaction as described in more detail inconnection with FIGS. 2 and 6. In addition the proximity authorizationunit 2910 can either automatically sense and determine the requiredsignal type and/or protocol to be sent to one of the proximity serviceunits 2920 such as for example would be the preferred embodiment in thetoll booth system, or the owner can program the proximity authorizationunit 2910 unit to manually delivery of the request authorization codeinformation with some proximity service units 2920 and automaticallydeliver the request authorization code information to other proximityservice units 2920.

The proximity authorization unit 2910 menu controlled code andcommunication modes are described in more detail in connection withFIGS. 30 and 32. Also the preferred embodiment of the proximityauthorization unit 2910 code function capability includes on boardBiometric code identification methods as described in connection withFIGS. 33 and 36. Biometric code identifiers are often required in bothaccess and financial transaction authorization schemes today andprobably will be more so in next generation systems where such methodscan greatly reduce theft.

The requirement for remote code verification by the proximity serviceunit 2920 prior to transaction authorization would depend upon theproximity system owner and collection methods employed. The preferredembodiment does not require remote authorization to be employed for eachlocal transaction as will be described in more detail in connection withFIGS. 30 and 34.

In FIG. 30 the basic design elements incorporated into the proximityauthorization unit 2910 are shown wherein there is the computer unit3000 such as a Motorola 68000 series or T1 DSP 6000 series unit or amodified Ericsson Bluetooth Baseband Processor made to operate by thepower on off unit 3003 which supplies power to all the elements of theproximity authorization unit 2910 via positive lines 3004 and groundlines 3002. The power on off unit 3003 is connected to a battery andcharge unit 3001 and the computer unit 3000 program memory and storedrequest authorization codes and phone directories for example aremaintained even when the proximity authorization unit 2910 is turned offby a control panel 3010 via line 3013.

The computer unit 3000 controls the functions of the biometric unit 3025via the computer control and command bus lines 3005 as more fullydescribed in connection with FIG. 36. The main purpose of the biometricsunit 3025 is so that the owner can record their biometrics such as theirfingerprint code in the biometric unit 3025 and require that for allselected transactions for example require the finger print of the personrequesting the transaction to match the stored fingerprint.

The computer unit 3000 controls the functions of a signal selector unit3030 via the computer control and command bus lines 3005 that selectsthe type of signal and or protocol that is sent to the service signalingunit 3050 via line 3044. The service signaling unit 3050 in turn sendsthe selection of the type of signal and/or protocol to thetransmitter/receiver unit 3070 via line 3055 to be used in communicatingwith the wireless adapter element 3180 of the proximity service unit2920 as more fully described in connection with FIG. 31 and 34.

The signal selector unit 3030 is under the control of the computer unit3000 sends command functions via line 3005 and the control panel 3010sends manual selections via line 3012 so as to select either a signalingmode manually via line 3012 or automatically via computer control andcommand bus line 3005 for controlling the transmifter/receiver unit 3070which sends the selected signal to the proximity service unit 2920 asdescribed in connection with FIG. 3.

The signal selected by the signal selector unit 3030 is automatic whenthe computer unit 3000 has been placed in the automatic recognition modevia line 3013 from the control panel 3010 and most likely the signalselected will be that in either the 900 Mhz region, or IR spectrum orthe 2.4 Ghz to 2.5 Ghz frequency range with a protocol representing thetype of service the proximity authorization unit 2910 is near. Both theIR spectrum and the 2.4 Ghz to 2.5 Ghz is a frequency range designatedglobally for unlicensed low power use where as 900 Mhz is used in thecordless home phone systems.

The preferred method for the proximity authorization units 2910 andproximity service units 2920 to communicate in automatic mode is for theproximity service units 2920 to periodically send out a very low powerburst telling the proximity authorization units 2910 in the area theMPTU is available for service (say a burst every 3 sec that last forseveral milliseconds) and then all proximity authorization units 2910 inautomatic detection mode and are within detection range of say severalhundred feet can have the signal selector unit 3030 select the requiredsignal for communication with the proximity service unit 2910 and notifythe service signaling unit 3050 via line 3044.

The preferred method for the proximity authorization units 2910 and theproximity service units 2920 to communicate in manual mode is for thetype of service to be selected such as the ATM system or the vendingmachine system described above and when the owner of the proximityauthorization unit 2910 wants the service a connect button on thecontrol panel 3010 is activated and the line 3012 notifies both thesignal selector unit 3030 and the service signaling unit 3050 of thetype service signal to send and then the signal selector unit 3030 sendsthe selected signal to the service signaling unit 3050 via 3044.

The control panel 3010 is connected to all the other elements of theproximity authorization unit 2910 via the computer control and commandbus lines 3012 which is used in conjunction with line 3013 and thecomputer unit 3000 computer control and command bus lines 3005 toprogram and or select the various features available with the proximityauthorization unit 2910. A feature menu unit 3080 along with audio anddisplay elements 3018 connected to the control panel 3010 are describedin more detail in connection with FIG. 33.

In FIG. 31 the selected T/R signal is sent to both a receiver unit 3110and a transmitter unit 3150 or as shown by line 3055. In addition thecomputer unit 3000 notifies a signal converter unit 3130 via the line3005 how to encode and decode the signals. The encoded signals are sentto a modulator unit 3140 via line 3131 that in turn modulates thetransmitter unit 3150 via a line 3141 in the proper fashion for theselected signal. The signals received by the receiver unit 31310 aresent to a demodulator unit 3120 via a line 3112 which in turn sends thedemodulated signals to a signal converter unit 3130 via a line 3121 fordecoding and conversion to digital format for processing by the computerunit 3000 via computer control and command bus line 3005.

The elements in the transmiter/receiver unit 3070 are all available in anumber of available T/R modules such as the Ericsson Radio ModulePBA31-301 for example TI and HP have similar T/R modules for IR forexample and there is a multiple mode (with two RF and one IR module thatwill be in production by Ericsson in the year 2000 for their R380digital phone) that can be easily adapted to incorporate three RF (900Mhz, 1.8 Ghz, 2.4 Ghz) and one IR signal types and the protocols intothe 270 portion of the MPSU 10 unit.

In FIG. 31, the communication between the transmitter/receiver unit 3070of the proximity authorization unit 2910 and the proximity service unit2920 is via line 2912, when communication is wireless or via thephysical link 2917 if communication is not wireless. The wirelessconnection ranges are predetermined and will vary from several hundredfeet to only several feet in the case of IR signaling for example.

The existing legacy authorization elements 3160 present in anyparticular proximity service unit will vary depending upon a number offactors such as age of unit, type of proximity service unit,manufacturer of proximity service unit, etc. All of the elements shownin the legacy proximity units 3160 are available today and part of theprior art. The legacy proximity units 3160, by themselves, are notconsidered part of this invention as described in more detail inconnection with FIG. 34.

For example, most proximity service units that accept credit cards suchas the gas pump system, or the store checkout system have communicationconnections and thus interface via a line 2929 to a remote billingcenter 2950 via communication networks 2945. Another example would beproximity systems such as a vehicle toll gate and the garage key systemthat has a legacy proximity unit 3160 connected via a line 3165. Thepurpose of the interface units 3170, 3180, and 3190 is to add theadditional capability required so that the legacy proximity unit 3160will also be made to operate with one or more of the proximityauthorization units 2910 connection and communication methods 17 or 12as discussed in connection with FIG. 32.

The preferred physical embodiment of the proximity authorization unit2910 input and output functions is shown in FIG. 32. The audio anddisplay elements 3018 have both visual output 3250 and audible output3260 outputs such as found on many pagers, cell phones and PDA's.

The control panel 3010 includes an alphanumeric keyboard 3210 along withthree groups of function keys 3220, 3230 and 3240. The feature menu unit30280 is thumb controlled and the biometrics unit 3025 has both a fingerprint (FPU) input pad and a camera unit input (CU). The function keygroup 3220 represented by F1, F2, F3, and F4 may for example controlrecord functions of the proximity authorization unit 2910, such as“record on demand” when F4 is pressed for example. When F4 is pressedthen the audio unit 3260 is connected to the computer unit 3000 memoryunit and the audio being spoken or received is stored.

Likewise F1 may be for Optical Recording, F2 may be for data entryrecording and F3 may signal for recording to be done in a remotelocation as will be discussed in connection with the low powercommunication features of the public communication unit 50 in connectionwith FIG. 35.

The function key group 3230 represented by M1, M2, and M3 for example,can be used to play back or erase recorded data. The function key group3240 represented by T1, T2, and T3 allow specific services to beaddressed such as T1 may represent the wireless gate opening servicesfor Toll and Parking lots for example. All of the Input and outputelements of the proximity authorization unit 2910 physical preferredembodiment are available each from several sources and their operationwell know to those skilled in the art.

FIG. 33 shows a method by which the proximity authorization unit 2910can communicate with the proximity service units 2920 with out having tocommunicate in a wireless manner. The physical adapter element 3170 isdepicted wherein a connector unit 3300 is connected to the legacyproximity units 3160 via connectors 3320 and data is transferred betweenthe proximity authorization unit 2910 via the physical link 2917desirably using a serial port such as an RJ 11 or newer USB port whereinin the preferred embodiment the male portion of the physical link 2917is located in the connector unit 3300 and the female portion of thephysical link 2917 is located in the proximity authorization unit 2910.A biometric adapter element 3190 is shown as an biometric input unit3350 connected into the legacy proximity unit 3160 via a connector 3340.The logic flow of these physical adapter units with the legacy elementsof 3160 are shown with the aid of FIG. 34.

In FIG. 34, the legacy proximity units of 3160 include a computer unit3400 that controls the other legacy proximity units 3160 such as alegacy I/O unit 3470 such as a credit card unit connected to a line 3165for the data input and a third party communication transceiver unit 3460connected to a remote authorization site via a line 29 for example.

Upon receipt of a service authorization code, i.e. remote authorizationvia line 2920, the computer unit 3400 causes a proximity servicetransaction unit 3480 such as a money dispenser in an ATM system tooperate and then the computer unit 3400 notifies a transaction recordand reporting unit 3430 to record the transaction for the owner and thenthe computer unit 3400 may cause a receipt unit 3440 to issue a receipt3445 to the customer for their records.

Typical legacy POS systems with the legacy features and elements shownin the legacy proximity unit 3160 portion of FIG. 34 can be found inmost issues of Business Solutions published monthly by Corry Publishingin Erie Pa.

The wireless adapter element 3180 of the proximity authorization unit2910, the physical connector unit 3300 and the biometrics input unit3350 are shown in FIG. 34. In the wireless adapter element 3180 there isboth a transmit unit 3420 and a receiver unit 3410 that communicateswith the transmitter unit 3150 and receiver unit 3110 respectively viathe line 12. The receiver unit 3410 sends data, such as credit cardinformation, PIN data or Service Provider Identification Number (SPIN)in case local authorization is accepted by the proximity service unit2920, to the legacy system via line 3412 connected to the computer unit3400. The computer unit 3400 will either accept the data delivered vialine 3412 without requiring program modifications (such as credit carddata wherein the data is delivered in the same format via line 3412 thatthe data is delivered to the computer unit 3400 via the legacy I/O unit3470) or the computer unit 3400 is modified with additional programsbeing inserted at the time the proximity system owner upgrades theirequipment to work with the proximity authorization unit 2910 to allowother forms of service authorizations and or require additional datasuch as Biometric or POS transactions that require more secure proximityservice transaction unit 3480 control.

The additional programs are available from the vendors making theBiometric or POS equipment (see any 1999monthly issue of BusinessSolutions published monthly by Corry Publishing in Erie PA). A preferredembodiment of the receiver unit 3410 and the transmit unit 3420 operatein the 900 Mhz region, the IR spectrum and 2.4 to 2.5 Ghz frequencyranges which are globally accepted low power signaling types for homeand business.

Some of the preferred data communication protocols of the receiver unit3410 and the transmitter unit 3420 embodiments are WAP and Bluetoothestablished by major suppliers of proximity Transceiver equipment. Someof the preferred embodiments of improved operating systems to be addedto the computer unit 3400 or new computers 3400 if one needs to be addedwhen making the upgrades discussed herein, are Windows CE or Linux.

The preferred embodiment of local authorization software to beincorporated in the proximity service units 2920 is one developed forWeb site service providers (see copending application “Proximity ServiceProvider System”, U.S. Ser. No. 60/152,184) and uses private key publickey encryption methods wherein the proximity service unit 2910 cancompute a special number referred to as a SPIN and output a serviceauthorization code to authorize the proximity service transaction unit3480 locally when ever the computed SPIN number derived from datareceived from the customers proximity authorization unit 2910 viareceiver unit 3410 matches with a SPIN number stored in the computerunit 34600 periodically inserted by the proximity system owner via theline 29 and the third party transceiver 3460 connected to the computerunit 34600 for example.

The major advantage of local approval is convenience to both thecustomer and owner or proximity service operator such as a grocery storeor hair salon operator. The proximity authorization unit 2910 canoperate just like a smart card with the approved credit amount stored inthe proximity authorization unit 2910 until transactions are authorizedand then data is sent back to the proximity authorization unit 2910 via3422 to the transmitter unit 34620 from the computer unit 3400 at thesame time the transaction is approved locally and recorded in theproximity service unit 2910.

When the transaction data is received in the proximity authorizationunit 2910 computer unit 3000 a debit to the remaining approved cash ismade and the amount can be checked at any time by the user of theproximity authorization unit 2910 by accessing his account using apredetermined method involving the keyboard described in connection withFIG. 4. However the owner of the proximity authorization unit 2910 canrefill their proximity authorization unit 2910 from phones or ATMsystems or vending machine systems for example by requesting a remoterefill using the third party transceiver unit 3460 connecting to thebank or service provider via line 29 with having to find a specialrefill station such as an ATM system as required with the Smart Cards inuse today.

The logic for the proximity authorization unit 2910 communicating withthe public communication unit 50 is shown in FIG. 35 wherein multipleproximity authorization units 2910 can communicate simultaneously withthe public communication unit 50. The operation of the publiccommunication unit 50 has been described in detail herein and forpurposes of brevity this description is incorporated herein byreference. This feature lets the customers have the convenience ofsetting down say in an airport, for example, within several hundred feetof the public communication unit 50 has a pico base station wirelessunit 3540 (instead of the simpler wireless adapter element 3180described in connection with FIG. 34) connected to a multiple channelcontrol unit 3450 via 3545 (as part of the added program in the computerunit 34600) connected to a multiplex unit 3560 via line 3555 (such as aT1 unit servicing 24 phones at once) instead of the third partytransceiver 3460 as described in connection with FIG. 34.

Thus multiple customers can have the convenience of using theirproximity authorization units 2910 with out having to pay for air timewhen in the vicinity of the public communication unit 50. The elements3510, 3515, 3520, 3525 and 3530 are similar in construction and functionas those elements described in connection with FIGS. 30 and 31.

In FIG. 36 a more detailed description of how the biometric unit 3025 ofthe proximity authorization units 2910 interfaces with the computer unit3400 along with possibly the biometrics adapter element 3190 interfacingin to the same computer unit 3400 in order to greatly reduce fraud andespecially to reduce unauthorized entry.

For example many high security access control systems require bothfinger print and IRIS scan biometrics data from an individual to comparewith those stored in a computer data base for the same individual inorder to grant access. Thus such proximity access systems would alreadyhave the biometric adapter element 3190 connected via connector 3340(see FIG. 33) to the computer unit 34600 for example along possibly withother access devices interfacing in via legacy I/O unity 3470 forexample that might be used by the computer unit 3400 algorithms beforeaccess authorization is granted.

Using the SPIN methods described earlier an additional layer (severalorders of magnitude actually) of security could be added at accesspoints plus local access authorization could be provided as describedwith the aid of FIG. 36.

If periodic SPIN numbers were provided to both the proximityauthorization unit 2910 computer unit 3000 and the computer unit 3400 ofthe proximity service unit 2920 wherein the SPIN number provided theproximity authorization unit 2910 computer unit 3000 required theauthorized persons biometrics from the unit 3600 for example sent to thebiometrics adapter unit 3610 via line 3605 respectively upon signal fromthe control line 3012 then a biocode converter 3620 would send thebiometrics signals conditioned in a predetermined manner via line 3625to a buffer unit 3630 where the computer control and command bus line3005 would transfer the signals to the computer unit 3000 to makepredetermined encryption calculations.

The predetermined encryption calculations uses the SPIN number for thecurrent period plus the predetermined conditioned biometrics data storedin the buffer unit 3630 to compute a number for transmission to theappropriate proximity service unit 2920 via the appropriate line 12 or17 to be used in making yet another calculation by the computer unit3400 of the proximity service unit 2920 using yet another set ofbiometrics data from biometric adapter element 3190 either sent directlyto the computer unit 3400 via connector 3340 or sent to the wirelessadapter element 3180 for delivery to the computer unit 3400.

In use, a request authorization code including biometric encrypted datais transmitted from the proximity authorization unit 2910 to theproximity service unit 2920. The user of the proximity authorizationunit 2910 then inputs biometric data into the computer unit 3400 of theproximity service unit 2920 via the biometric input unit 3350 and thebiometric adapter element 3190, for example.

The computer unit 3400 makes encryption calculations using thebiometrics encrypted data sent from the proximity authorization unit2910 taken at the time authorization is requested plus encryptioncalculations taken from the biometrics data received from the biometricadapter element 3190 using yet another SPIN number such that if the twocalculated numbers differ by some predetermined amount then access isdenied.

The predetermined amount of difference in the two calculations can bechosen for the level of security desired. In the manner described boththe proximity service unit 2910 and the proximity authorization unit2920 receive SPIN numbers that use the control centers private key togenerate messages involving the master biometrics data base stored atthe access control center. However the master biometrics data base foreach authorized person only has to be used in generating unique SPINnumbers for each authorized persons and is only transmitted periodicallyfor storage into the proximity 10 units of each authorized person.

But since the same private keys are used in generating messages at boththe proximity authorization unit 2910 and the proximity service unit2920, unless the authorized user generates new biometrics in theproximity authorization unit 2910 at the time entry is requested, thegenerated numbers will not unlock the necessary numbers generated fromthe biometrics data taken at the proximity service unit 2920.

Those skilled in the art of encryption methods know that such a methodprovides security methods much more reliable than those used today.

Referring now to FIG. 37, shown therein and designated by the referencenumeral 3700 is another embodiment of a proximity authorization unitconstructed in accordance with the present invention. The proximityauthorization unit 3700 is similar in construction and function to theproximity authorization unit 2910, except as discussed hereinafter. Theproximity authorization unit 3700 has a portable housing 3702, which isconfigured to be worn by an individual. For example, as shown in FIG.37, the portable housing 3702 can be in the form of a braceletextendable about a wrist 3704 (shown in phantom) of the individual.

The proximity authorization unit 3700 further comprises a powerreception unit 3706 electrically connected to a computer unit 3708, anda transmitter/receiver unit 3710. The computer unit 3708 and thetransmitter/receiver unit 3710 is preferably similar in construction andfunction to the computer unit 2917 and the transmitter receiver unit3070. The power reception unit 3706 receives a power signal from atleast one of the proximity service units 2910, and in response toreceiving the power signal, the power reception unit 3706 provides asource of power to the computer unit 3708 and the transmitter/receiverunit 3710 for a period of time sufficient for the computer unit 3708 toretrieve the request authorization code and the transmitter/receiverunit 3710 to output the request authorization code on the first signaland/or the second signal. The power reception unit 3706 can receive thepower signal by way of inductive coupling.

The proximity authorization unit 3702 is further provided with at leastone light source 3720 (and preferably a plurality of light sources 3720)positioned on the portable housing 3702, and a light control assembly3722 electrically connected to the light source 3720 for selectivelyactuating and deactuating the light source for utilitarian or decorativepurposes. Only one of the light sources 3720 is shown in FIG. 37 forpurposes of clarity.

For example, the power reception unit 3706 can be electrically connectedto the light control assembly 3722. Upon reception of the power signalby the power reception unit 3706, the power reception unit 3706 outputsa signal to the light control assembly 3722 to cause the light controlassembly 3722 to actuate the light source 3720.

As another example, the transmitter/receiver unit 3710 can receive aservice authorization code from at least one of the proximity serviceunits 2910. The service authorization code indicates that the requestauthorization code has been validated. The light control assembly 3722receives a signal from the transmitter/receiver unit 3710 in response tothe transmitter/receiver unit 3710 receiving the service authorizationcode so as to cause the light control assembly 3722 to actuate the lightsource 3720 to indicate to the individual that the request authorizationcode has been validated.

Alternatively, in accordance with the present invention, rather thanhaving the transmitter/receiver 3710, the power reception unit 3706 andthe computer unit 3708, an identifying indicia indicative of a requestauthorization code, such as a bar code, can be provided on an exteriorsurface of the portable housing 3702 for scanning by the proximityservice unit 2910 in a similar manner as discussed herein.

Referring now to FIG. 38, shown therein is the proximity authorizationunit 3700 positioned on the wrist 3704 of the individual. The proximityservice unit 2920 can be provided with a power transmitter 3800 forgenerating and transmitting the power signal to the power reception unit3706 of the proximity authorization unit 3700.

The power transmitter 3800 is provided with a power interface 3802 and apower antenna 3804. The power interface 3802 generates and transmits thepower signal to the power antenna 3804. The power antenna 3804 receivesthe power signal and transmits the power signal to the power receptionunit 3706. As shown in FIG. 38, the power antenna 3804 is preferablyconfigured into a loop 3806 defining an opening 3808 sized to receivethe wrist 3704 of the individual. The power transmitter 3800 preferablyoperates via the techniques of inductive coupling to transmit the powersignal to the power reception unit 3706.

It should be understood that the elements of the proximity service unit2920 other than the power transmitter 3800 have been omitted from FIG.38 for purposes of clarity.

In use, the individual positions the wrist 3704, upon which theproximity authorization unit 3700 is disposed, through the opening 3808.The power signal is transmitted from the power antenna 3804 to the powerreception unit 3706 and the power signal is provided to the computerunit 3708, the transmitter/receiver unit 3710 (and other elements of theproximity authorization unit 3700 which are not shown in FIG. 37 forpurposes of clarity). The request authorization code is then transmittedto the proximity service unit 2920 to begin the authorization process.The authorization process has been discussed in detail herein and willnot be repeated for purposes of brevity.

What is claimed is:
 1. A proximity service unit for providing at leastone predetermined service for use with multiple types of wirelessdevices, comprising: a multiple channel wireless transceiver capable ofreceiving at least two signal types, the multiple channel wirelesstransceiver receiving a request authorization code from each of aplurality of respective wireless devices such that the plurality ofwireless devices communicate simultaneously with the multiple channelwireless transceiver without air time, each wireless device beingcapable of communicating the request authorization code when thewireless device is within a predetermined proximity distance from themultiple channel wireless transceiver and each request authorizationcode uniquely identifying the wireless device from which the requestauthorization code is received; a proximity unit validation assemblycommunicating with the multiple channel wireless transceiver receivingand validating the plurality of request authorization codes received bythe multiple channel wireless transceiver and outputting a serviceauthorization code in response to each of the request authorizationcodes upon validating the respective request authorization code; and alegacy activation unit receiving the service authorization codes and forproviding at least one predetermined service for each wireless deviceproviding the request authorization code resulting in a serviceauthorization code.
 2. The proximity service unit of claim 1, whereinthe predetermined service provided by the legacy activation unitincludes at least one of audio and visual communication services andwherein the legacy activation unit includes a multiple line buscommunicating with a multiplexer unit and the multiple channel wirelesstransceiver so as to permit communication between the multiple channelwireless transceiver and the multiplexer unit, the multiplexer unitconnected to a data connection for permitting simultaneous bidirectionalcommunication between the multiple channel wireless transceiver and thedata connection so as to provide the at least one of audio and visualcommunication services for the plurality of respective wireless devicesproviding the request authorization code resulting in the serviceauthorization code.
 3. The proximity service unit of claim 2, furthercomprising a plurality of multiple channel wireless transceivers with atleast two of the multiple channel wireless transceivers being adapted toreceive different types of wireless signals from the multiple wirelessdevices.
 4. The proximity service unit of claim 3, wherein the differenttypes of wireless signals are selected from a group comprising infraredregion signals, 900 MHz region signals, 1.8 GHz region signals, and 2.4GHz region signals.
 5. The proximity service unit of claim 2, furthercomprising a biometric unit receiving a biometric signal from anindividual and outputting the biometric signal to the proximity unitvalidation assembly, the proximity unit validation assembly utilizingthe biometric signal to validate the respective request authorizationcode.
 6. The proximity service unit of claim 5, wherein the biometricunit includes an iris detection element for generating biometric signalsindicative of the iris of the individual.
 7. The proximity service unitof claim 5, wherein the biometric unit includes a fingerprint detectorfor generating biometric signals indicative of the fingerprint of theindividual.
 8. The proximity service unit of claim 5, wherein thebiometric unit is provided on the proximity service unit.
 9. Theproximity service unit of claim 5, wherein the biometric unit isprovided on respective ones of the wireless devices.
 10. The proximityservice unit of claim 2, further comprising a legacy payment interfaceunit and an interface control unit, the legacy payment interface unitreceiving a signal indicative of a valid payment, and outputting asignal to the interface control unit, the interface control unitoutputting a signal to the proximity unit validation assembly to outputthe service authorization code.
 11. The proximity service unit of claim10, wherein the legacy payment interface unit is a legacy coin paymentinterface unit determining whether the valid payment has been made bycoin.
 12. The proximity service unit of claim 10, wherein the legacypayment interface unit is a legacy credit card interface unitdetermining whether the valid payment has been made by credit card. 13.The proximity service unit of claim 2, wherein at least one additionalpredetermined service is provided.
 14. The proximity service unit ofclaim 13, wherein the at least one additional predetermined service isselected from a group of services comprising automated teller services,garage door opener services, door lock services, vending machineservices, television services, checkout services, live entertainmentfacilities services, and a mobile transportation service.
 15. Theproximity service unit of claim 13, wherein the multiple channelwireless transceiver is capable of receiving a second authorization codefrom the wireless devices for authorizing the additional predeterminedservice, the second authorization code uniquely identifying therespective wireless device from which the second authorization code wastransmitted.
 16. The proximity service unit of claim 15, wherein themultiple channel wireless transceiver detects the signal strength of thewireless device transmitting the second request authorization code andof the wireless device transmitting the request authorization code, andtransmits the second request authorization code to the proximity unitvalidation assembly if the signal strength of the wireless devicetransmitting the second request authorization code exceeds a firstsignal strength, and transmits the request authorization code to theproximity unit validation assembly if the signal strength of thewireless device transmitting the request authorization code exceeds asecond signal strength.
 17. The proximity service unit of claim 16,wherein the multiple channel wireless transceiver detects the firstsignal strength in response to the wireless devices being within a firstproximity distance from the multiple channel wireless transceiver, andthe multiple channel wireless transceiver detects the second signalstrength in response to the wireless devices being within a secondproximity distance from the multiple channel wireless transceiver, andwherein the first proximity distance is greater than the secondproximity distance.
 18. The proximity service unit of claim 1, whereinthe predetermined service is a vehicle toll service.
 19. The proximityservice unit of claim 18, further comprising a plurality of multiplechannel wireless transceivers with at least two of the multiple channelwireless transceivers being adapted to receive different types ofwireless signals from the multiple wireless devices.
 20. The proximityservice unit of claim 19, wherein the different types of wirelesssignals are selected from a group comprising infrared region signals,900 MHz region signals, 1.8 GHz region signals, and 2.4 GHz regionsignals.
 21. The proximity service unit of claim 18, wherein themultiple channel wireless transceiver detects a first signal strengthfrom the wireless devices and a second signal strength from the wirelessdevices, and wherein the proximity unit validation assembly validatesthe plurality of request authorization codes in response to the multiplechannel wireless transceiver detecting the first signal strength, andthe proximity unit validation assembly outputs the service authorizationcodes in response to the multiple channel wireless transceiver detectingthe second signal strength.
 22. The proximity service unit of claim 21,wherein the multiple channel wireless transceiver detects the firstsignal strength in response to the wireless devices being within a firstproximity distance from the multiple channel wireless transceiver, andthe multiple channel wireless transceiver detects the second signalstrength in response to the wireless devices being within a secondproximity distance from the multiple channel wireless transceiver, andwherein the first proximity distance is greater than the secondproximity distance.
 23. The proximity service unit of claim 18, whereinthe request authorization code includes at least one of a vehicleidentification number, and a customer identification data.
 24. Theproximity service unit of claim 18, wherein the request authorizationcode is automatically transmitted to the multiple channel wirelesstransceiver by the wireless device.
 25. The proximity service unit ofclaim 1, wherein the predetermined service is a transportation gateservice.
 26. The proximity service unit of claim 25, further comprisinga plurality of multiple channel wireless transceivers with at least twoof the multiple channel wireless transceivers being adapted to receivedifferent types of wireless signals from the multiple wireless devices.27. The proximity service unit of claim 26, wherein the different typesof wireless signals are selected from a group comprising infrared regionsignals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHzregion signals.
 28. The proximity service unit of claim 25, wherein themultiple channel wireless transceiver detects a first signal strengthfrom the wireless devices and a second signal strength from the wirelessdevices, and wherein the proximity unit validation assembly validatesthe plurality of request authorization codes in response to the multiplechannel wireless transceiver detecting the first signal strength, andthe proximity unit validation assembly outputs the service authorizationcodes in response to the multiple channel wireless transceiver detectingthe second signal strength.
 29. The proximity service unit of claim 28,wherein the multiple channel wireless transceiver detects the firstsignal strength in response to the wireless devices being within a firstproximity distance from the multiple channel wireless transceiver, andmultiple channels wireless transceiver detects the second signalstrength in response to the wireless devices being within a secondproximity distance from the multiple channel wireless transceiver, andwherein the first proximity distance is greater than the secondproximity distance.
 30. The proximity service unit of claim 25, whereinthe request authorization code includes at least one of a vehicleidentification number, and a customer identification data.
 31. Theproximity service unit of claim 25, wherein the request authorizationcode is automatically transmitted to the multiple channel wirelesstransceiver by the wireless device.
 32. The proximity service unit ofclaim 1, wherein the predetermined service is selected from a group ofautomated teller services.
 33. The proximity service unit of claim 32,further comprising a plurality of multiple channel wireless transceiverswith at least two of the multiple channel wireless transceivers beingadapted to receive different types of wireless signals from the multiplewireless devices.
 34. The proximity service unit of claim 32, whereinthe different types of wireless signals are selected from a groupcomprising infrared region signals, 900 MHz region signals, 1.8 GHzregion signals, and 2.4 GHz region signals.
 35. The proximity serviceunit of claim 32, wherein the multiple channel wireless transceiverdetects a first signal strength from the wireless devices and a secondsignal strength from the wireless devices, and wherein the proximityunit validation assembly validates the plurality of requestauthorization codes in response to the multiple channel wirelesstransceiver detecting the first signal strength, and the proximity unitvalidation assembly outputs the service authorization codes in responseto the multiple channel wireless transceiver detecting the second signalstrength.
 36. The proximity service unit of claim 35, wherein themultiple channel wireless transceiver detects the first signal strengthin response to the wireless devices being within a first proximitydistance from the multiple channel wireless transceiver, and themultiple channel wireless transceiver detects the second signal strengthin response to the wireless devices being within a second proximitydistance from the multiple channel wireless transceiver, and wherein thefirst proximity distance is greater than the second proximity distance.37. The proximity service unit of claim 1, wherein the predeterminedservice is a vehicle services, controlling at least a portion for avehicle.
 38. The proximity service unit of claim 37, further comprisinga plurality of multiple channel wireless transceivers with at least twoof the multiple channel wireless transceivers being adapted to receivedifferent types of wireless signals from the multiple wireless devices.39. The proximity service unit of claim 38, wherein the different typesof wireless signals are selected from a group comprising infrared regionsignals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHzregion signals.
 40. The proximity service unit of claim 37, wherein therequest authorization code includes at least one of a vehicleidentification number, and a customer identification data.
 41. Theproximity service unit of claim 37, further comprising an antitheftdevice deactuating the ignition of the vehicle in response to themultiple channel wireless transceiver receiving an antitheft code from aremote wireless transmitter.
 42. The proximity service unit of claim 37,wherein the request authorization code is automatically transmitted tothe multiple channel wireless transceiver by the wireless device. 43.The proximity service unit of claim 1, wherein the predetermined serviceis at least two services selected from a group of services comprisingactivating a garage door opener, activating a doorlock, activating avending machine, and activating a television set.
 44. The proximityservice unit of claim 43, further comprising a plurality of multiplechannel wireless transceivers with at least two of the multiple channelwireless transceivers being adapted to receive different types ofwireless signals from the multiple wireless devices.
 45. The proximityservice unit of claim 44, wherein the different types of wirelesssignals are selected from a group comprising infrared region signals,900 MHz region signals, 1.8 GHz region signals, and 2.4 GHz regionsignals.
 46. The proximity service unit of claim 43, wherein themultiple channel wireless transceiver detects a first signal strengthfrom the wireless devices and a second signal strength from the wirelessdevices, and wherein the proximity unit validation assembly validatesthe plurality of request authorization codes in response to the multiplechannel wireless transceiver detecting the first signal strength, andthe proximity unit validation assembly outputs the service authorizationcodes in response to the multiple channel wireless transceiver detectingthe second signal strength.
 47. The proximity service unit of claim 46,wherein the multiple channel wireless transceiver detects the firstsignal strength in response to the wireless devices being within a firstproximity distance from the multiple channel wireless transceiver, andthe multiple channel wireless transceiver detects the second signalstrength in response to the wireless devices being within a secondproximity distance from the multiple channel wireless transceiver, andwherein the first proximity distance is greater than the secondproximity distance.
 48. The proximity service unit of claim 43, whereinthe request authorization code includes a PIN number.
 49. The proximityservice unit of claim 43, wherein a list of authorized codes forvalidating the request authorization codes are stored in a remotedatabase.
 50. The proximity service unit of claim 49, wherein the remotedatabase is maintained by an Internet service provider.
 51. Theproximity service unit of claim 1, wherein the predetermined service isat least two services selected from a group of services comprisingactivating a gate entry system, activating a POS system, activating avending machine, and activating a kiosk machine.
 52. The proximityservice unit of claim 51, further comprising a plurality of multiplechannel wireless transceivers with at least two of the multiple channelwireless transceivers being adapted to receive different types ofwireless signals from the multiple wireless devices.
 53. The proximityservice unit of claim 52, wherein the different types of wirelesssignals are selected from a group comprising infrared region signals,900 MHz region signals, 1.8 GHz region signals, and 2.4 GHz regionsignals.
 54. The proximity service unit of claim 51, wherein themultiple channel wireless transceiver detects a first signal strengthfrom the wireless devices and a second signal strength from the wirelessdevices, and wherein the proximity unit validation assembly validatesthe plurality of request authorization codes in response to the multiplechannel wireless transceiver detecting the first signal strength, andthe proximity unit validation assembly outputs the service authorizationcodes in response to the multiple channel wireless transceiver detectingthe second signal strength.
 55. The proximity service unit of claim 54,wherein the multiple channel wireless transceiver detects the firstsignal strength in response to the wireless devices being within a firstproximity distance from the multiple channel wireless transceiver, andthe multiple channel wireless transceiver detects the second signalstrength in response to the wireless devices being within a secondproximity distance from the multiple channel wireless transceiver, andwherein the first proximity distance is greater than the secondproximity distance.
 56. The proximity service unit of claim 51, whereinthe request authorization code includes a PIN number.
 57. The proximityservice unit of claim 51, wherein a list of authorized codes forvalidating the request authorization codes are stored in a remotedatabase.
 58. The proximity service unit of claim 57, wherein the remotedatabase is maintained by an Internet service provider.
 59. Theproximity service unit of claim 1, wherein the predetermined service isa gasoline dispensing service.
 60. The proximity service unit of claim59, further comprising a plurality of multiple channel wirelesstransceivers with at least two of the multiple channel wirelesstransceivers being adapted to receive different types of wirelesssignals from the multiple wireless devices.
 61. The proximity serviceunit of claim 60, wherein the different types of wireless signals areselected from a group comprising infrared region signals, 900 MHz regionsignals, 1.8 GHz region signals, and 2.4 GHz region signals.
 62. Theproximity service unit of claim 59, wherein the request authorizationcode includes at least one of a credit data, and a customeridentification data.
 63. The proximity service unit of claim 1, whereinthe predetermined service is a vending machine service for at least oneof dispensing goods and providing predetermined services.
 64. Theproximity service unit of claim 63, further comprising a plurality ofmultiple channel wireless transceivers with at least two of the multiplechannel wireless transceivers being adapted to receive different typesof wireless signals from the multiple wireless devices.
 65. Theproximity service unit of claim 64, wherein the different types ofwireless signals are selected from a group comprising infrared regionsignals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHzregion signals.
 66. The proximity service unit of claim 63, wherein therequest authorization code includes at least one of a credit data, and acustomer identification data.
 67. The proximity service unit of claim63, wherein the proximity unit validation assembly includes apredetermined set of service provider identification codes storedtherein for which the vending machine service was authorized, andwherein the request authorization code includes a service provideridentification number and a customer code, the proximity unit validationassembly storing the customer code and utilizing the service provideridentification number and the customer code in the request authorizationcode, and the predetermined set of service provider identification codesin validating the respective request authorization code.
 68. Theproximity service unit of claim 67, wherein the multiple channelwireless transceiver receives an authorization code that authorizes thecollection of the customer codes from the proximity unit validationassembly.
 69. The proximity service unit of claim 67, further comprisinga high power transmitter uploading the customer code and the serviceprovider identification number to a service provider for collectionafter the vending machine service has been provided.
 70. The proximityservice unit of claim 1, wherein the predetermined service is a checkoutservice for receiving a customer's payment for at least one of goods andservices.
 71. The proximity service unit of claim 70, further comprisinga plurality of multiple channel wireless transceivers with at least twoof the multiple channel wireless transceivers being adapted to receivedifferent types of wireless signals from the multiple wireless devices.72. The proximity service unit of claim 71, wherein the different typesof wireless signals are selected from a group comprising infrared regionsignals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHzregion signals.
 73. The proximity service unit of claim 70, wherein therequest authorization code includes at least one of a credit data, and acustomer identification data.
 74. The proximity service unit of claim70, wherein the multiple channel wireless transceiver receives a contestnotification signal from at least one of the wireless devices so as tonotify the proximity unit validation assembly that the wireless deviceis in a retail store in which the proximity service unit is disposed,the notification signal uniquely identifying the respective wirelessdevice from which the contest notification signal was transmitted. 75.The proximity service unit of claim 74, wherein the proximity unitvalidation assembly receives the contest notification signal from themultiple channel wireless transceiver and enters the uniqueidentification of the wireless device into a contest.
 76. The proximityservice unit of claim 74, wherein the multiple channel wirelesstransceiver includes a dual distance signaling feature so as to onlydetect the contest notification signal from the wireless devices withina first proximity distance from the proximity service unit and to onlydetect the request authorization code from the wireless devices within asecond proximity distance from the proximity service unit and whereinthe first proximity distance is greater than the second proximitydistance.
 77. The proximity service unit of claim 1, wherein thepredetermined service is a mobile transportation service.
 78. Theproximity service unit of claim 77 further comprising a plurality ofmultiple channel wireless transceivers with at least two of the multiplechannel wireless transceivers being adapted to receive different typesof wireless signals from the multiple wireless devices.
 79. Theproximity service unit of claim 78, wherein the different types ofwireless signals are selected from a group comprising infrared regionsignals, 900 MHz region signals, 1.8 GHz region signals, and 2.4 GHzregion signals.
 80. The proximity service unit of claim 77, wherein therequest authorization code includes at least one of a credit data, and acustomer identification data.
 81. The proximity service unit of claim 1,wherein the predetermined service is a parking meter service forcharging for parking.
 82. The proximity service unit of claim 81,further comprising a plurality of multiple channel wireless transceiverswith at least two of the multiple channel wireless transceivers beingadapted to receive different types of wireless signals from the multiplewireless devices.
 83. The proximity service unit of claim 82, whereinthe different types of wireless signals are selected from a groupcomprising infrared region signals, 900 MHz region signals, 1.8 GHzregion signals, and 2.4 GHz region signals.
 84. The proximity serviceunit of claim 83, wherein the request authorization code includes atleast one of a credit data, and a customer identification data.
 85. Theproximity service unit of claim 81, wherein the proximity unitvalidation assembly includes a predetermined set of service provideridentification codes stored therein for which the parking meter servicewas authorized, and wherein the request authorization code includes aservice provider identification number and a customer code, theproximity unit validation assembly storing the customer code andutilizing the service provider identification number and the customercode in the request authorization code, and the predetermined set ofservice provider identification codes in validating the respectiverequest authorization code.
 86. The proximity service unit of claim 85,wherein the multiple channel wireless transceiver receives a collectionauthorization code from a mobile interrogator that authorizes thecollection of the customer codes from the proximity unit validationassembly to the mobile interrogator.
 87. The proximity service unit ofclaim 86, wherein the multiple channel wireless transceiver includes adual distance signaling feature so as to only detect the mobileinterrogator within a first proximity distance from the proximityservice unit and to only detect the wireless device within a secondproximity distance from the proximity service unit and wherein the firstproximity distance is greater than the second proximity distance. 88.The proximity service unit of claim 86, wherein the multiple channelwireless transceiver detects a first signal strength and transmits thecollection authorization code to the proximity unit validation assemblyin response to the mobile interrogator being within a first proximitydistance from the multiple channel wireless transceiver, and themultiple channel wireless transceiver detects a second signal strengthand transmits the request authorization code to the proximity unitvalidation assembly in response to the wireless device being within asecond proximity distance from the multiple channel wirelesstransceiver, and wherein the first proximity distance is greater thanthe second proximity distance.
 89. The proximity service unit of claim85, further comprising a high power transmitter uploading the customercode and the service provider identification number to a serviceprovider for collection after the parking meter service has beenprovided.
 90. A proximity authorization unit for use with proximityservice units, some of the proximity service units being capable ofreceiving information via a first signal and some of the proximityservice units being capable of receiving information via a secondsignal, the second signal being different from the first signal, andeach of the proximity service units providing a predetermined servicewhen activated in response to receiving a request authorization code,the proximity authorization unit comprising: a portable housing; acomputer unit supported by the housing and having the requestauthorization code stored therein; and a communication unit supported bythe housing, the computer unit retrieving the request authorization codeand the communication unit outputting the request authorization code onthe first signal for communication to the proximity service unitscapable of receiving the first signal, and the communication unitoutputting the request authorization code via the second signal to theproximity service units capable of receiving the second signal.
 91. Theproximity authorization unit of claim 90, wherein the communication unitis a low power communication unit not two way connected to a wirelesscommunication network controlled from a central control center.
 92. Theproximity authorization unit of claim 90, wherein the first and secondsignal are selected from a group comprising infrared region signals, 900MHz region signals, 1.8 GHz region signals, and 2.4 GHz region signals.93. The proximity authorization unit of claim 90, wherein the requestauthorization code includes a customer identification code and a serviceprovider identification number.
 94. The proximity authorization unit ofclaim 90, further comprising means for communicating audio and videoinformation in a format perceivable by an individual located adjacent tothe portable housing.
 95. The proximity authorization unit of claim 94,further comprising means for receiving at least one of audio and videoinformation from the individual, the at least one of audio and videoinformation being transmitted to the communication unit, and wherein thecommunication unit outputs the audio and video information on the firstsignal for communication to the proximity service units capable ofreceiving the first signal, and outputs the audio and video informationon the second signal for communication to the proximity service unitscapable of receiving the second signal.
 96. The proximity authorizationunit of claim 94, wherein the first and second signal are selected froma group comprising infrared region signals, 900 MHz region signals, 1.8GHz region signals, and 2.4 GHz region signals.
 97. The proximityauthorization unit of claim 94, wherein the request authorization codeincludes a customer identification code and a service provideridentification number such that the proximity service unit provideslocal authorization of the request authorization code.
 98. The proximityauthorization unit of claim 90, wherein the computer unit storesbiometric data indicative of an individual authorized to use theproximity authorization unit and further comprising a biometric unit onthe portable housing, the biometric unit receiving a biometric signalfrom an individual, and outputting the biometric signal to the computerunit such that the computer unit receives the biometric signal andcompares the biometric signal with the biometric data for preventingunauthorized usage of the proximity authorization unit.
 99. Theproximity authorization unit of claim 98, wherein the biometric unitoutputs the biometric signal to the communication unit, thecommunication unit outputting the biometric signal on the first signalfor communication to the proximity service units capable of receivingthe first signal, and the communication unit outputting the biometricsignal via the second signal to the proximity service units capable ofreceiving the second signal.
 100. The proximity authorization unit ofclaim 98, wherein the communication unit is a low power communicationunit.
 101. The proximity authorization unit of claim 98, wherein thefirst and second signal are selected from a group comprising infraredregion signals, 900 MHz region signals, 1.8 GHz region signals, and 2.4GHz region signals.
 102. The proximity authorization unit of claim 98,wherein the request authorization code includes a customeridentification code and a service provider identification number. 103.The proximity authorization unit of claim 98, further comprising meansfor communicating audio and video information in a format perceivable bya user located adjacent to the portable housing.
 104. The proximityauthorization unit of claim 103, wherein the first and second signal areselected from a group comprising infrared region signals, 900 MHz regionsignals, 1.8 GHz region signals, and 2.4 GHz region signals.
 105. Theproximity authorization unit of claim 103, wherein the requestauthorization code includes a customer identification code and a serviceprovider identification number such that the proximity service unitprovides local authorization of the request authorization code.
 106. Theproximity authorization unit of claim 90, wherein the communication unitis capable of receiving signals indicative of at least one of messagesand data, and wherein the proximity authorization unit further comprisesmeans for recording the messages and data and means for playing back themessages and data.
 107. The proximity authorization unit of claim 106,wherein the communication unit is a low power communication unit not twoway connected to a wireless communication network controlled from acentral control center.
 108. The proximity authorization unit of claim106, wherein the first and second signal are selected from a groupcomprising infrared region signals, 900 MHz region signals, 1.8 GHzregion signals, and 2.4 GHz region signals.
 109. The proximityauthorization unit of claim 106, wherein the request authorization codeincludes a customer identification code and a service provideridentification number.
 110. The proximity authorization unit of claim106, further comprising means for communicating audio and videoinformation in a format perceivable by an individual located adjacent tothe portable housing.
 111. The proximity authorization unit of claim110, further comprising means for receiving at least one of audio andvideo information from the individual, the at least one of audio andvideo information being transmitted to the communication unit, andwherein the communication unit outputs the audio and video informationon the first signal for communication to the proximity service unitscapable of receiving the first signal, and outputs the audio and videoinformation on the second signal for communication to the proximityservice units capable of receiving the second signal.
 112. The proximityauthorization unit of claim 110, wherein the first and second signal areselected from a group comprising infrared region signals, 900 MHz regionsignals, 1.8 GHz region signals, and 2.4 GHz region signals.
 113. Theproximity authorization unit of claim 110, wherein the requestauthorization code includes a customer identification code and a serviceprovider identification number such that the proximity service unitprovides local authorization of the request authorization code.
 114. Theproximity authorization unit of claim 106, wherein the computer unitstores biometric data indicative of an individual authorized to use theproximity authorization unit and further comprising a biometric unit onthe portable housing, the biometric unit receiving a biometric signalfrom an individual, and outputting the biometric signal to the computerunit such that the computer unit receives the biometric signal andcompares the biometric signal with the biometric data for preventingunauthorized usage of the proximity authorization unit.
 115. Theproximity authorization unit of claim 114, wherein the biometric unitoutputs the biometric signal to the communication unit, thecommunication unit outputting the biometric signal on the first signalfor communication to the proximity service units capable of receivingthe first signal, and the communication unit outputting the biometricsignal via the second signal to the proximity service units capable ofreceiving the second signal.
 116. The proximity authorization unit ofclaim 114, wherein the communication unit is a low power communicationunit not two way connected to a wireless communication networkcontrolled from a central control center.
 117. The proximityauthorization unit of claim 114, wherein the first and second signal areselected from a group comprising infrared region signals, 900 MHz regionsignals, 1.8 GHz region signals, and 2.4 GHz region signals.
 118. Theproximity authorization unit of claim 114, wherein the requestauthorization code includes a customer identification code and a serviceprovider identification number.
 119. The proximity authorization unit ofclaim 114, further comprising means for communicating audio and videoinformation in a format perceivable by a user located adjacent to theportable housing.
 120. The proximity authorization unit of claim 119,wherein the first and second signal are selected from a group comprisinginfrared region signals, 900 MHz region signals, 1.8 GHz region signals,and 2.4 GHz region signals.
 121. The proximity authorization unit ofclaim 119, wherein the request authorization code includes a customeridentification code and a service provider identification number suchthat the proximity service unit provides local authorization of therequest authorization code.
 122. The proximity authorization unit ofclaim 90, wherein the portable housing is configured to be worn by anindividual.
 123. The proximity authorization unit of claim 122, whereinthe portable housing is in the form of a bracelet.
 124. The proximityauthorization unit of claim 123, further comprising a power receptionunit electrically connected to the computer unit and the communicationunit, the power reception unit receiving a power signal from at leastone of the proximity service units, and in response to receiving thepower signal, the power reception unit providing a source of power tothe computer unit and the communication unit for a period of timesufficient for the computer unit to retrieve the request authorizationcode and the communication unit to output the request authorization codeon the first signal, and to output the request authorization code on thesecond signal.
 125. The proximity authorization unit of claim 122,further comprising at least one light source positioned on the portablehousing, and a light control assembly electrically connected to thelight source for selectively actuating and deactuating the light source.126. The proximity authorization unit of claim 122, further comprising apower reception unit electrically connected to the computer unit and thecommunication unit, the power reception unit receiving a power signalfrom at least one of the proximity service units, and in response toreceiving the power signal, the power reception unit providing a sourceof power to the computer unit and the communication unit for a period oftime sufficient for the computer unit to retrieve the requestauthorization code and the communication unit to output the requestauthorization code on the first signal, and to output the requestauthorization code on the second signal.
 127. The proximityauthorization unit of claim 126, wherein the power reception unit iselectrically connected to the light control assembly, and wherein uponreception of the power signal by the power reception unit, the powerreception unit outputs a signal to the light control assembly to causethe light control assembly to actuate the light source.
 128. Theproximity authorization unit of claim 126, wherein the communicationunit receives a service authorization code from at least one of theproximity service units, the service authorization code indicating thatthe request authorization code has been validated, and wherein the lightcontrol assembly receives a signal from the communication unit inresponse to the communication unit receiving the service authorizationcode so as to cause the light control assembly to actuate the lightsource to indicate to the individual that the request authorization codehas been validated.
 129. A proximity authorization transaction system,comprising: a plurality of wireless devices with at least two of thewireless devices being of a different type, at least some of thewireless devices outputting a request authorization code; a plurality ofproximity service units with each of the proximity service units capableof providing a predetermined service, at least two of the proximityservice units providing different predetermined services and the atleast two of the proximity service units comprising: a multiple channelwireless transceiver capable of receiving at least two signal types, themultiple channel wireless transceiver receiving the requestauthorization code from some of the plurality of wireless devices suchthat the plurality of wireless devices are capable of communicatingsimultaneously with the multiple channel wireless transceiver withoutair time, each wireless device being capable of communicating therequest authorization code when the wireless device is within apredetermined proximity distance from the multiple channel wirelesstransceiver and each request authorization code uniquely identifying thewireless device from which the request authorization code is received; aproximity unit validation assembly communicating with the multiplechannel wireless transceiver receiving and validating the plurality ofrequest authorization codes received by the multiple channel wirelesstransceiver and outputting a service authorization code in response toeach of the request authorization codes upon validating the respectiverequest authorization code; and legacy activation unit and for providingat least one predetermined service for each wireless device providingthe request authorization code resulting in a service authorizationcode.
 130. The proximity authorization transaction system of claim 129,wherein some of the proximity service units are capable of receivinginformation via a first signal and some of the proximity service unitsare capable of receiving information via a second signal, the secondsignal being different from the first signal, and wherein at least oneof the wireless devices comprises: a portable housing; a computer unitsupported by the housing and having the request authorization codestored therein; and a communication unit supported by the housing, thecomputer unit retrieving the request authorization code and thecommunication unit outputting the request authorization code on thefirst signal for communication to the proximity service units capable ofreceiving the first signal, and the computer unit retrieving the requestauthorization code and the communication unit outputting the requestauthorization code via the second signal to the proximity service unitscapable of receiving the second signal.
 131. A proximity service unitfor providing at least one predetermined service for use with multipletypes of wireless devices, comprising: a wireless transceiver capable ofreceiving at least two signal types, the wireless transceiver receivinga request authorization code from each of a plurality of respectivewireless devices such that the plurality of wireless devices communicatesimultaneously with the wireless transceiver without air time, eachwireless device being capable of communicating the request authorizationcode when the wireless device is within a predetermined proximitydistance from the wireless transceiver and each request authorizationcode uniquely identifying the wireless device from which the requestauthorization code is received; a proximity unit validation assemblycommunicating with the wireless transceiver receiving and validating theplurality of request authorization codes received by the wirelesstransceiver and outputting a service authorization code in response toeach of the request authorization codes upon validating the respectiverequest authorization code; a legacy activation unit and for providingat least one predetermined service for each wireless device providingthe request authorization code resulting in a service authorizationcode; an interface control unit; and a legacy payment interface unit,the legacy payment interface unit receiving a signal indicative of avalid payment, and outputting a signal to the interface control unit,the interface control unit outputting a signal to the proximity unitvalidation assembly to output the service authorization code.
 132. Theproximity service unit of claim 131, wherein the proximity unitvalidation assembly outputs the request authorization code to a thirdparty for validation, and outputs the service authorization code inresponse to receiving a validation signal from the third party.
 133. Amethod for activating a proximity service unit capable of providing apredetermined service, comprising: providing a plurality of wirelessdevices with at least two of the wireless devices being of a differenttype, each of the wireless devices storing a request authorization codeuniquely identifying the wireless device; providing a plurality ofproximity service units with each of the proximity service units capableof providing a predetermined service, at least two of the proximityservice units providing different predetermined services; outputting arequest authorization code by at least some of the wireless devices;receiving, by the proximity service units, the request authorizationcode from the wireless devices outputting the request authorization codesuch that the plurality of wireless devices communicate simultaneouslywith the proximity service unit without air time; validating by theproximity service units receiving the request authorization code togenerate a service authorization code; and outputting the serviceauthorization code for each request authorization code which isvalidated.
 134. A proximity authorization transaction system,comprising: a wireless device having a request authorization code storedtherein, the wireless device being capable of communicating via awireless link and a physical link, the wireless device outputting therequest authorization code by at least one of the wireless link and thephysical link; and a proximity service unit having a physical adapterelement receiving at least a portion of the wireless device to establishthe physical link, the proximity service unit capable of providing apredetermined service upon validation of the request authorization code,the proximity service unit capable of communicating with the wirelessdevice via the wireless link and the physical link, and receiving therequest authorization code by at least one of the wireless link and thephysical link, and the proximity service unit and the wireless deviceestablishing communication by both the wireless link and the physicallink as a condition of the validation of the request authorization code.135. A method for providing a predetermined service, comprising:providing a wireless device having a request authorization code storedtherein, the wireless device capable of communicating via a wirelesslink and a physical link; providing a proximity service unit capable ofproviding a predetermined service upon validation of the requestauthorization code, the proximity service unit capable of communicatingwith the wireless device via the wireless link and the physical link,the proximity service unit having a physical adapter element receivingat least a portion of the wireless device to establish the physicallink; outputting, by the wireless device, the request authorization codeby at least one of the wireless link and the physical link, receiving,by the proximity service unit, the request authorization code by atleast one of the wireless link and the physical link; and establishingcommunication between the proximity service unit and the wireless deviceby the physical link when the request authorization code is output bythe wireless link, and establishing communication by the wireless linkwhen the request authorization code is output by the physical link; andthereafter validating the request authorization code by the proximityservice unit.